Atlas Venture

Nimbus Therapeutics is a biotechnology company based in Cambridge, Massachusetts, that specializes in discovering and developing innovative small molecule therapeutics for serious diseases, including metabolic disorders, cancer, and immune-inflammatory conditions. The company employs a computational technology-driven approach to advance its diverse pipeline of drug candidates into clinical development. Its Nimbus Apollo program includes the lead candidate NDI-010976, an allosteric inhibitor targeting Acetyl-CoA Carboxylase, which is being investigated for treating non-alcoholic steatohepatitis and hepatocellular carcinoma, among other diseases. NDI-010976 received Fast Track designation from the U.S. Food and Drug Administration in 2016, and the company aims to leverage its strategic partnerships to enhance its research and development efforts. Founded in 2009, Nimbus Therapeutics continues to focus on creating highly selective and potent medicines that address unmet medical needs.

Remix Therapeutics Inc. is a biotechnology company based in Cambridge, Massachusetts, focused on the research and development of innovative small molecule therapies that reprogram RNA processing to address various diseases. Founded in 2018, the company utilizes a biology platform to identify and prioritize therapeutic targets within RNA processing, aiming to tackle previously undruggable disease drivers. Its REMseq platform assists in validating these targets and optimizing chemical compounds for potential treatments. By analyzing patterns in RNA processing, Remix Therapeutics seeks to modulate gene expression, thereby enabling healthcare providers to correct or enhance genetic messages at their source, ultimately aiming to provide new approaches for treating diseases.

Developer of life sciences technology intended to develop highly effective and differentiated treatments for cystic fibrosis. The company is developing first-in-class small molecules that are focused on a unique target with the potential to fully normalize CFTR function for the first time for the vast majority of people living with cystic fibrosis, enabling patients with best-in-class efficacy and reach and long-term benefit for people with cystic fibrosis.

Be Biopharma, Inc. is focused on developing innovative therapeutics derived from engineered B-cells within the immune system. The company aims to address significant limitations associated with existing cell and gene therapies, such as the challenges of administering multiple doses, unpredictable patient reactions, and the necessity of potentially harmful chemotherapy regimens prior to treatment. Be Biopharma's approach allows for the creation of durable therapies that can be re-administered without toxic conditioning, making these treatments suitable for a range of diseases, including cancer, autoimmune disorders, and infectious diseases. Founded in 2020, Be Biopharma is headquartered in Cambridge, Massachusetts.

Triana Biomedicines is a developer of a molecular glue discovery platform to regulate disease targets that are difficult to address with any other modality. Triana’s drug discovery engine is powered by high-resolution structural insights, state-of-the-art in silico tools, and bespoke chemical libraries. The research team has validated the best-in-class platform and initiated multiple programs across different disease areas.

Arkuda Therapeutics is a biotechnology company leveraging new insights into progranulin and lysosomal biology to develop medicines to change the trajectory of neurodegenerative disease. Arkuda’s lead compounds aim to correct progranulin deficiency and lysosomal dysfunction in GRN-related frontotemporal dementia (FTD-GRN), a genetically-defined subtype of frontotemporal dementia caused by an autosomal dominant mutation in the GRN gene.

K36 Therapeutics mission to translate epigenetic modulation of oncogenic pathways into first-in-class small molecule therapies.

HotSpot Therapeutics is a developer of a therapy platform designed to discover medicines and provide proper treatment. The company's platform helps to identify hotspots and locate pathway treatments for cancer, metabolic and rare diseases, leverages a database of hotspot structures, harnessing the power of data science in its multidisciplinary approach to drug discovery enabling patients to get treatment against several diseases.

Rectify is developing disease-modifying precision therapies that restore ABC transporter function to address the underlying cause of serious genetic diseases. The company’s pipeline spans multiple therapeutic areas.

Disc Medicine, Inc. is a biotechnology company focused on developing therapeutics based on human genetics to address ineffective red blood cell production in hematologic diseases. The company specializes in programs targeting the hepcidin metabolism axis for the treatment of disorders related to hepcidin. Founded in 2017 and headquartered in Cambridge, Massachusetts, Disc Medicine is led by a team of experienced scientists and industry experts, supported by a panel of advisors with a proven history in discovering and developing innovative therapies. The company was established with backing from Atlas Venture, along with contributions from Novo Ventures and Access Biotechnology.

Versanis Bio focuses on developing therapies to address health issues prevalent among older adults, particularly obesity and its associated complications. The company's lead product, bimagrumab, is a human monoclonal antibody that targets activin type II receptors, effectively blocking the binding of ligands such as activin A and myostatin. This treatment has undergone extensive clinical evaluation, with over 1,500 participants in various controlled trials previously conducted by Novartis. Bimagrumab has shown the ability to induce significant fat loss without compromising lean muscle mass, while also improving important cardiometabolic markers such as HbA1c. Through its innovative approach, Versanis Bio aims to help overweight and obese adults achieve and maintain a healthier body composition.

Nimbus Therapeutics is a biotechnology company based in Cambridge, Massachusetts, that specializes in discovering and developing innovative small molecule therapeutics for serious diseases, including metabolic disorders, cancer, and immune-inflammatory conditions. The company employs a computational technology-driven approach to advance its diverse pipeline of drug candidates into clinical development. Its Nimbus Apollo program includes the lead candidate NDI-010976, an allosteric inhibitor targeting Acetyl-CoA Carboxylase, which is being investigated for treating non-alcoholic steatohepatitis and hepatocellular carcinoma, among other diseases. NDI-010976 received Fast Track designation from the U.S. Food and Drug Administration in 2016, and the company aims to leverage its strategic partnerships to enhance its research and development efforts. Founded in 2009, Nimbus Therapeutics continues to focus on creating highly selective and potent medicines that address unmet medical needs.

Vedere Bio, Inc. is a biotechnology company based in Cambridge, Massachusetts, established in 2019. The company focuses on developing gene therapy products aimed at restoring functional vision for patients who have experienced vision loss due to Inherited Retinal Degenerations (IRDs) and other causes of vision impairment, both genetic and non-genetic. Unlike many ocular gene therapies that primarily slow the progression of vision loss, Vedere Bio seeks to restore lost vision, regardless of the patient's genetic background or stage of their condition. As of September 2020, Vedere Bio operates as a subsidiary of Novartis AG.

Xilio Therapeutics is a biotechnology company advancing next-generation cancer immunotherapies designed to improve patient outcomes by unleashing the power of the immune system selectively at the site of the tumor. The company’s tumor-selective immunotherapies are based on its proprietary technology, which maximizes the potency of proven immuno-oncology therapies and restricts their activity to the tumor to minimize peripheral side effects. The broad applicability of these therapies across cancer types means that all patients could benefit from these potentially curative medicines. These tumor-selective therapies are designed to overcome the significant toxicities associated with validated IO therapies, such as IL-2 and aCTLA4, which have historically limited the number of patients that can be treated and prevented patients from completing full courses of treatment Xilio Therapeutics proprietary technology enables the explosion of therapeutic activity specifically within the tumor while reducing toxicity throughout the body a nod to the company name, Xilio, derived from the Latin term, Ex Nihilo, meaning creation or big-bang. The company applying its technology to build a broad pipeline of engineered antibodies, cytokines and chemokines as potential new options for people living with cancer. Xilio Therapeutics was founded in 2016 and is headquartered in Waltham, Massachusetts, United States.

Day One Biopharmaceuticals is a clinical-stage biotechnology company focused on developing targeted therapies for genetically defined cancers in patients of all ages, with an initial emphasis on pediatric patients. Founded in 2018 and headquartered in South San Francisco, California, the company aims to address the critical needs of children and adults diagnosed with cancer by creating innovative treatments derived from the biology of childhood cancer. Day One Biopharmaceuticals prioritizes programs that can be swiftly brought to market, thereby providing timely options for families facing cancer diagnoses. Its lead product candidate, DAY101, is an oral, brain-penetrant pan-RAF kinase inhibitor designed to target specific cancer types. The company seeks to license and acquire promising therapeutic products from research institutions and other biotechnology and pharmaceutical companies, striving to enhance the treatment landscape for underserved populations.

Ikena Oncology is dedicated to bringing next generation oncology therapies to patients suffering from cancer. Ikena Oncology are committed to leveraging our unique understanding of the complex biologic pathways that drive the formation and spread of cancers to discover and develop novel, patient-directed therapies. Selecting patients for treatment in clinical studies with biomarkers we develop is at the core of our strategy.

Remix Therapeutics Inc. is a biotechnology company based in Cambridge, Massachusetts, focused on the research and development of innovative small molecule therapies that reprogram RNA processing to address various diseases. Founded in 2018, the company utilizes a biology platform to identify and prioritize therapeutic targets within RNA processing, aiming to tackle previously undruggable disease drivers. Its REMseq platform assists in validating these targets and optimizing chemical compounds for potential treatments. By analyzing patterns in RNA processing, Remix Therapeutics seeks to modulate gene expression, thereby enabling healthcare providers to correct or enhance genetic messages at their source, ultimately aiming to provide new approaches for treating diseases.

Vigil will use the Series A funds to progress its lead pipeline candidate, a monoclonal antibody TREM2 agonist, through Phase 1 studies, advance their small molecule TREM2 agonist to IND, as well as pursue additional assets to grow the pipeline and increase the body of data supporting microglia biology as an important therapeutic pathway.

F-star Therapeutics, Inc., a clinical-stage biopharmaceutical company develops tetravalent bispecific antibodies for cancer therapy. Its medicines used in immuno-oncology treatments. The company plans for the initiation of a Phase I, open label, first-in-human clinical study of FS222, a bispecific antibody targeting CD137 (4-1BB) and PD-L1. The company is based in Cambridge, the United Kingdom.

Q32 Bio is a biotechnology company developing treatments for patients with severe autoimmune and inflammatory diseases. Q32 Bio is addressing dysregulation to help patients take back control of their lives in diseases with few to no treatment options, or those diseases where current therapeutics provide inadequate relief. Q32 Bio consists of a team of scientists and industry veterans with strong expertise in immunology. The team has a strong track record of discovering and developing new and innovative therapies.

Q32 Bio is a biotechnology company developing treatments for patients with severe autoimmune and inflammatory diseases. Q32 Bio is addressing dysregulation to help patients take back control of their lives in diseases with few to no treatment options, or those diseases where current therapeutics provide inadequate relief. Q32 Bio consists of a team of scientists and industry veterans with strong expertise in immunology. The team has a strong track record of discovering and developing new and innovative therapies.

Scorpion Therapeutics, Inc. is a biotechnology company focused on developing next-generation precision oncology technologies aimed at improving cancer treatment. Founded in 2020 and based in Boston, Massachusetts, the company specializes in creating precision oncology drugs that target known oncogenes, address currently undruggable cancer targets, and explore new therapeutic targets. By integrating advanced technologies in target discovery, medicinal chemistry, and translational medicine, Scorpion Therapeutics seeks to expand the reach of precision medicine to a broader patient population. The company's approach is designed to unlock novel small-molecule drugs that can overcome the limitations of existing therapies, thereby enhancing treatment options for cancer patients.

Be Biopharma, Inc. is focused on developing innovative therapeutics derived from engineered B-cells within the immune system. The company aims to address significant limitations associated with existing cell and gene therapies, such as the challenges of administering multiple doses, unpredictable patient reactions, and the necessity of potentially harmful chemotherapy regimens prior to treatment. Be Biopharma's approach allows for the creation of durable therapies that can be re-administered without toxic conditioning, making these treatments suitable for a range of diseases, including cancer, autoimmune disorders, and infectious diseases. Founded in 2020, Be Biopharma is headquartered in Cambridge, Massachusetts.

Korro Bio Inc. specializes in the development of nucleic acid-based therapeutics aimed at targeting specific sequences in genetic code, with a focus on treating rare diseases. Founded in 2018 and located in Cambridge, Massachusetts, the company utilizes a proprietary platform that enables efficient and selective RNA editing by leveraging natural processes found in multi-cellular organisms. This innovative approach allows Korro Bio to edit messenger RNA and recode specific codons, facilitating targeted modifications in protein structure and function across various tissues.

Unum Therapeutics is a biopharmaceutical company focused on developing immunotherapy products for cancer treatment, utilizing proprietary T-cell engineering technology. The company’s lead programs, based on its Antibody-Coupled T-cell Receptor (ACTR) technology, are in Phase I clinical trials. These include ACTR707 and ACTR087, both being tested in combination with rituximab for relapsed or refractory CD20+ non-Hodgkin lymphoma, as well as ACTR087 combined with SEA-BCMA for relapsed multiple myeloma. Additionally, ACTR707 is being evaluated with trastuzumab for HER2+ solid tumors. Unum Therapeutics is also exploring BOXR1030, a pre-clinical candidate targeting glypican-3 to enhance T cell functionality in the solid tumor microenvironment. Founded in 2014 and headquartered in Cambridge, Massachusetts, Unum aims to activate the body’s immune system to effectively combat cancer through its innovative therapies.

Q32 Bio is a biotechnology company developing treatments for patients with severe autoimmune and inflammatory diseases. Q32 Bio is addressing dysregulation to help patients take back control of their lives in diseases with few to no treatment options, or those diseases where current therapeutics provide inadequate relief. Q32 Bio consists of a team of scientists and industry veterans with strong expertise in immunology. The team has a strong track record of discovering and developing new and innovative therapies.

HotSpot Therapeutics is a developer of a therapy platform designed to discover medicines and provide proper treatment. The company's platform helps to identify hotspots and locate pathway treatments for cancer, metabolic and rare diseases, leverages a database of hotspot structures, harnessing the power of data science in its multidisciplinary approach to drug discovery enabling patients to get treatment against several diseases.

Day One Biopharmaceuticals is a clinical-stage biotechnology company focused on developing targeted therapies for genetically defined cancers in patients of all ages, with an initial emphasis on pediatric patients. Founded in 2018 and headquartered in South San Francisco, California, the company aims to address the critical needs of children and adults diagnosed with cancer by creating innovative treatments derived from the biology of childhood cancer. Day One Biopharmaceuticals prioritizes programs that can be swiftly brought to market, thereby providing timely options for families facing cancer diagnoses. Its lead product candidate, DAY101, is an oral, brain-penetrant pan-RAF kinase inhibitor designed to target specific cancer types. The company seeks to license and acquire promising therapeutic products from research institutions and other biotechnology and pharmaceutical companies, striving to enhance the treatment landscape for underserved populations.

Accent Therapeutics, Inc. is a biopharmaceutical company based in Lexington, Massachusetts, focused on developing small molecule therapies for oncology through the innovative field of epitranscriptomics. Founded in 2017, the company explores post-transcriptional chemical modifications of RNA, which play a crucial role in regulating proteins essential for cellular growth and differentiation. By precisely targeting RNA-modifying proteins associated with cancer, Accent Therapeutics aims to translate advanced scientific research into effective treatments for patients, ultimately providing new therapeutic options in the fight against cancer.

Affinia Therapeutics Inc. is a biotechnology company focused on developing gene therapies for various diseases, particularly those affecting muscle and the central nervous system (CNS). Founded in 2019 and based in Waltham, Massachusetts, the company specializes in creating rationally designed adeno-associated virus (AAV) vectors. By integrating synthetic and systems biology with high-throughput screening and advanced resolution techniques, Affinia Therapeutics aims to address significant unmet medical needs. The company’s innovative approach allows for the development of novel gene therapies with enhanced properties, targeting the treatment of devastating diseases and improving the lives of affected individuals.

Xilio Therapeutics is a biotechnology company advancing next-generation cancer immunotherapies designed to improve patient outcomes by unleashing the power of the immune system selectively at the site of the tumor. The company’s tumor-selective immunotherapies are based on its proprietary technology, which maximizes the potency of proven immuno-oncology therapies and restricts their activity to the tumor to minimize peripheral side effects. The broad applicability of these therapies across cancer types means that all patients could benefit from these potentially curative medicines. These tumor-selective therapies are designed to overcome the significant toxicities associated with validated IO therapies, such as IL-2 and aCTLA4, which have historically limited the number of patients that can be treated and prevented patients from completing full courses of treatment Xilio Therapeutics proprietary technology enables the explosion of therapeutic activity specifically within the tumor while reducing toxicity throughout the body a nod to the company name, Xilio, derived from the Latin term, Ex Nihilo, meaning creation or big-bang. The company applying its technology to build a broad pipeline of engineered antibodies, cytokines and chemokines as potential new options for people living with cancer. Xilio Therapeutics was founded in 2016 and is headquartered in Waltham, Massachusetts, United States.

Quench Bio is a developer of gasdermin biology drugs designed to treat severe inflammatory diseases.The company leverages insights into gasdermin biology and innate immunity to develop medicines with lead compounds that target and inhibit the pore-forming protein that mediates the release of inflammatory cytokines, alarmins, DNA and NETs, enabling patients to get relief from inflammatory diseases.

Generation Bio is a genetic medicines company based in Cambridge, Massachusetts, that specializes in developing gene therapies aimed at treating both rare and prevalent diseases. Established in 2016, the company focuses on conditions affecting the liver, retina, skeletal muscle, central nervous system, and oncology. Generation Bio employs an innovative non-viral platform that includes a proprietary high-capacity DNA construct known as closed-ended DNA (ceDNA), a cell-targeted lipid nanoparticle delivery system (ctLNP), and a scalable, capsid-free manufacturing process. This approach allows for the targeted delivery of genetic materials, including large and multiple genes across various tissues, and enables redosable treatments tailored to individual patient needs. By enhancing access to therapies for rare diseases and addressing more common conditions, Generation Bio aims to provide durable and sustainable treatment options for patients throughout their lives.

Chroma Medicine is a genomic medicine company focused on epigenetic editing to transform the treatment of genetically driven diseases. By leveraging epigenetics, which regulates gene expression naturally, Chroma Medicine aims to develop innovative therapies that provide precise control over gene activity. The company utilizes programmable epigenetic editors that combine DNA binding domains with epigenetic effector domains, allowing for targeted manipulation of genes and chromatin structure. This approach promises to create a new class of therapeutics that offers unparalleled control over gene expression, potentially leading to more effective treatments for a range of genetic disorders.

Triplet Therapeutics, Inc. develops therapeutics and treatments for triplet disorders. It develops treatment for repeat expansion disorders, including Huntington’s disease, myotonic dystrophy, and spinocerebellar ataxias. Triplet Therapeutics, Inc. was formerly known as rzna, Inc. The company was founded in 2018 and is based in Cambridge, Massachusetts.

IFM Therapeutics specializes in developing small molecule medicines that target the innate immune system to address complex challenges in treating inflammatory and autoimmune disorders, as well as cancer. The company collaborates with academic partners to leverage expertise in innate immunity alongside experienced drug discovery professionals. Its subsidiary, IFM Due, focuses on discovering and developing antagonists of the cGAS/STING pathway, aiming to treat conditions such as inflammation, neuroinflammation, autoimmunity, and cancer. Additionally, IFM Discovery, a newly established incubator within the company, is engaged in advancing a portfolio of genetically validated targets for next-generation therapies addressing inflammation, neuroinflammation, autoimmunity, and fibrosis. Through these initiatives, IFM Therapeutics seeks to enhance immune response and improve the quality of life for patients facing serious health challenges.

Arkuda Therapeutics is a biotechnology company leveraging new insights into progranulin and lysosomal biology to develop medicines to change the trajectory of neurodegenerative disease. Arkuda’s lead compounds aim to correct progranulin deficiency and lysosomal dysfunction in GRN-related frontotemporal dementia (FTD-GRN), a genetically-defined subtype of frontotemporal dementia caused by an autosomal dominant mutation in the GRN gene.

Disc Medicine, Inc. is a biotechnology company focused on developing therapeutics based on human genetics to address ineffective red blood cell production in hematologic diseases. The company specializes in programs targeting the hepcidin metabolism axis for the treatment of disorders related to hepcidin. Founded in 2017 and headquartered in Cambridge, Massachusetts, Disc Medicine is led by a team of experienced scientists and industry experts, supported by a panel of advisors with a proven history in discovering and developing innovative therapies. The company was established with backing from Atlas Venture, along with contributions from Novo Ventures and Access Biotechnology.

Vedere Bio, Inc. is a biotechnology company based in Cambridge, Massachusetts, established in 2019. The company focuses on developing gene therapy products aimed at restoring functional vision for patients who have experienced vision loss due to Inherited Retinal Degenerations (IRDs) and other causes of vision impairment, both genetic and non-genetic. Unlike many ocular gene therapies that primarily slow the progression of vision loss, Vedere Bio seeks to restore lost vision, regardless of the patient's genetic background or stage of their condition. As of September 2020, Vedere Bio operates as a subsidiary of Novartis AG.

Triplet Therapeutics, Inc. develops therapeutics and treatments for triplet disorders. It develops treatment for repeat expansion disorders, including Huntington’s disease, myotonic dystrophy, and spinocerebellar ataxias. Triplet Therapeutics, Inc. was formerly known as rzna, Inc. The company was founded in 2018 and is based in Cambridge, Massachusetts.

Third Harmonic Bio is a clinical-stage biopharmaceutical company dedicated to developing innovative treatments for severe allergies and inflammation. The company is focused on creating first-in-class oral small-molecule inhibitors targeting the KIT receptor, which plays a crucial role in the survival and function of mast cells—key immune cells involved in allergic responses. Its lead product candidate, THB001, is designed to provide selective inhibition of KIT, while another candidate, THB335, aims to address multiple mast cell-driven inflammatory diseases affecting the skin, respiratory system, and gastrointestinal tract. Through its research and development efforts, Third Harmonic Bio seeks to advance the management of inflammatory diseases, enhancing patient outcomes and quality of life.

Remix Therapeutics Inc. is a biotechnology company based in Cambridge, Massachusetts, focused on the research and development of innovative small molecule therapies that reprogram RNA processing to address various diseases. Founded in 2018, the company utilizes a biology platform to identify and prioritize therapeutic targets within RNA processing, aiming to tackle previously undruggable disease drivers. Its REMseq platform assists in validating these targets and optimizing chemical compounds for potential treatments. By analyzing patterns in RNA processing, Remix Therapeutics seeks to modulate gene expression, thereby enabling healthcare providers to correct or enhance genetic messages at their source, ultimately aiming to provide new approaches for treating diseases.

Xilio Therapeutics is a biotechnology company advancing next-generation cancer immunotherapies designed to improve patient outcomes by unleashing the power of the immune system selectively at the site of the tumor. The company’s tumor-selective immunotherapies are based on its proprietary technology, which maximizes the potency of proven immuno-oncology therapies and restricts their activity to the tumor to minimize peripheral side effects. The broad applicability of these therapies across cancer types means that all patients could benefit from these potentially curative medicines. These tumor-selective therapies are designed to overcome the significant toxicities associated with validated IO therapies, such as IL-2 and aCTLA4, which have historically limited the number of patients that can be treated and prevented patients from completing full courses of treatment Xilio Therapeutics proprietary technology enables the explosion of therapeutic activity specifically within the tumor while reducing toxicity throughout the body a nod to the company name, Xilio, derived from the Latin term, Ex Nihilo, meaning creation or big-bang. The company applying its technology to build a broad pipeline of engineered antibodies, cytokines and chemokines as potential new options for people living with cancer. Xilio Therapeutics was founded in 2016 and is headquartered in Waltham, Massachusetts, United States.

Bicycle Therapeutics is a clinical-stage biopharmaceutical company developing a novel class of medicines which are referred to as Bicycles. The Bicycles are synthetic short peptides constrained to form two loops which stabilize their structural geometry. Its initial internal programs are focused on oncology indications with high unmet medical need. The company's product candidate, BT1718, is a Bicycle Toxin Conjugate, or BTC.

HotSpot Therapeutics is a developer of a therapy platform designed to discover medicines and provide proper treatment. The company's platform helps to identify hotspots and locate pathway treatments for cancer, metabolic and rare diseases, leverages a database of hotspot structures, harnessing the power of data science in its multidisciplinary approach to drug discovery enabling patients to get treatment against several diseases.

Nimbus Therapeutics is a biotechnology company based in Cambridge, Massachusetts, that specializes in discovering and developing innovative small molecule therapeutics for serious diseases, including metabolic disorders, cancer, and immune-inflammatory conditions. The company employs a computational technology-driven approach to advance its diverse pipeline of drug candidates into clinical development. Its Nimbus Apollo program includes the lead candidate NDI-010976, an allosteric inhibitor targeting Acetyl-CoA Carboxylase, which is being investigated for treating non-alcoholic steatohepatitis and hepatocellular carcinoma, among other diseases. NDI-010976 received Fast Track designation from the U.S. Food and Drug Administration in 2016, and the company aims to leverage its strategic partnerships to enhance its research and development efforts. Founded in 2009, Nimbus Therapeutics continues to focus on creating highly selective and potent medicines that address unmet medical needs.

Accent Therapeutics, Inc. is a biopharmaceutical company based in Lexington, Massachusetts, focused on developing small molecule therapies for oncology through the innovative field of epitranscriptomics. Founded in 2017, the company explores post-transcriptional chemical modifications of RNA, which play a crucial role in regulating proteins essential for cellular growth and differentiation. By precisely targeting RNA-modifying proteins associated with cancer, Accent Therapeutics aims to translate advanced scientific research into effective treatments for patients, ultimately providing new therapeutic options in the fight against cancer.

Avrobio is a clinical-stage gene therapy company based in Cambridge, Massachusetts, focused on developing ex vivo lentiviral gene therapies aimed at treating rare diseases with a single-dose approach. The company utilizes hematopoietic stem cells collected from patients, which are modified using a lentiviral vector to insert functional copies of defective genes associated with specific diseases. Avrobio's lead product candidate, AVR-RD-01, is currently in Phase II clinical trials for Fabry disease. Additionally, the company's pipeline includes AVR-RD-02, which has completed preclinical trials for type 1 Gaucher disease; AVR-RD-03, in preclinical development for Pompe disease; and AVR-RD-04, which has also completed preclinical studies for cystinosis. Avrobio has established a research collaboration with Magenta Therapeutics to explore targeted antibody-drug conjugates as a conditioning regimen for its lentiviral gene therapies. Founded in 2015, Avrobio aims to leverage advancements in cell and gene therapies to provide potential cures for serious and debilitating conditions.

Harbour BioMed is a biotechnology company focused on discovering and developing therapeutics for cancer and inflammatory diseases, particularly through immuno-oncology. Established in 2016 and headquartered in Shanghai, China, the company employs two patented transgenic mouse platforms for generating fully human monoclonal antibodies and heavy chain only antibodies, enabling the creation of bispecific antibodies and other therapeutic compounds. Harbour BioMed's development pipeline includes products targeting various conditions, such as autoimmune diseases and respiratory infections. The company also licenses its antibody platforms to other firms and academic institutions via its Harbour Antibodies subsidiary. It has formed strategic collaborations with several notable organizations, including The Wistar Institute and WuXi Biologics, and maintains partnerships with various biopharmaceutical companies. With operations in Cambridge, Massachusetts, and antibody platform innovation in Rotterdam, the Netherlands, Harbour BioMed is positioned to enhance drug discovery and development across multiple global markets.

Generation Bio is a genetic medicines company based in Cambridge, Massachusetts, that specializes in developing gene therapies aimed at treating both rare and prevalent diseases. Established in 2016, the company focuses on conditions affecting the liver, retina, skeletal muscle, central nervous system, and oncology. Generation Bio employs an innovative non-viral platform that includes a proprietary high-capacity DNA construct known as closed-ended DNA (ceDNA), a cell-targeted lipid nanoparticle delivery system (ctLNP), and a scalable, capsid-free manufacturing process. This approach allows for the targeted delivery of genetic materials, including large and multiple genes across various tissues, and enables redosable treatments tailored to individual patient needs. By enhancing access to therapies for rare diseases and addressing more common conditions, Generation Bio aims to provide durable and sustainable treatment options for patients throughout their lives.

Korro Bio Inc. specializes in the development of nucleic acid-based therapeutics aimed at targeting specific sequences in genetic code, with a focus on treating rare diseases. Founded in 2018 and located in Cambridge, Massachusetts, the company utilizes a proprietary platform that enables efficient and selective RNA editing by leveraging natural processes found in multi-cellular organisms. This innovative approach allows Korro Bio to edit messenger RNA and recode specific codons, facilitating targeted modifications in protein structure and function across various tissues.

Quench Bio is a developer of gasdermin biology drugs designed to treat severe inflammatory diseases.The company leverages insights into gasdermin biology and innate immunity to develop medicines with lead compounds that target and inhibit the pore-forming protein that mediates the release of inflammatory cytokines, alarmins, DNA and NETs, enabling patients to get relief from inflammatory diseases.

Ikena Oncology is dedicated to bringing next generation oncology therapies to patients suffering from cancer. Ikena Oncology are committed to leveraging our unique understanding of the complex biologic pathways that drive the formation and spread of cancers to discover and develop novel, patient-directed therapies. Selecting patients for treatment in clinical studies with biomarkers we develop is at the core of our strategy.

Obsidian Therapeutics develops innovative cell and gene therapies aimed at enhancing adoptive immunotherapy for cancer patients. Founded in 2015 and based in Cambridge, Massachusetts, the company focuses on creating next-generation therapies that utilize pharmacologic operating systems to provide precise control over protein activity within cells. This technology allows for the development of adoptive cell therapies with advanced functionalities that can be managed by physicians using simple, safe, and orally active medications. By offering improved control over treatment, Obsidian Therapeutics aims to provide better outcomes for patients compared to existing cell therapy options.

Gemini Therapeutics, Inc. is a precision medicine company established in 2015 and based in Cambridge, Massachusetts. The company specializes in developing therapies for patients with dry age-related macular degeneration (AMD) and related rare genetic diseases. Gemini's approach focuses on addressing genetically-defined conditions by creating therapeutic candidates that target specific molecular abnormalities prevalent in patients with significant clinical needs. Their diverse pipeline features a range of innovative treatment modalities, including monoclonal antibodies, recombinant proteins, and gene therapies. The company has secured funding from prominent life science investors and collaborates with academic institutions globally to advance its mission of delivering potentially first-in-class therapeutics.

Rodin Therapeutics is a biotechnology company based in Cambridge, Massachusetts, focused on developing therapeutics for cognitive disorders through the application of epigenetic insights. Founded in 2013 with backing from Atlas Venture and Johnson & Johnson Development Corporation, the company leverages advanced structural biology capabilities and a team experienced in central nervous system (CNS) drug development. Rodin's innovative approach centers on the modulation of histone deacetylase (HDAC) complexes to restore synaptic function and promote neuronal health in degenerative brain diseases. This strategy aims to address significant unmet medical needs in the treatment of neurological disorders. As of November 2019, Rodin operates as a subsidiary of Alkermes Inc.

Replimune Group, Inc., a biotechnology company, develops oncolytic immune-gene therapies to treat cancer. It uses its proprietary Immulytic platform to design and develop product candidates that are intended to activate the immune system against cancer. The company’s lead product candidate is RP1, a selectively replicating version of herpes simplex virus 1, which is in Phase I/II clinical trials for a range of solid tumors; and that is in Phase II clinical trials for patients with cutaneous squamous cell carcinoma. It is also developing RP2, which is in Phase I clinical trials for an anti-CTLA-4 antibody-like protein in order to block the inhibition of the immune response otherwise caused by CTLA-4; and RP3 to express immune-activating proteins that stimulate T cells. Replimune Group, Inc. was founded in 2015 and is headquartered in Woburn, Massachusetts.

Indalo Therapeutics is a preclinical-stage biotechnology company focused on developing innovative therapies for patients afflicted by fibrotic diseases. Founded on significant scientific advancements, the company leverages deep insights into the molecular mechanisms that drive abnormal scarring. By assembling a skilled team of pharmaceutical scientists and industry executives, Indalo aims to address critical unmet medical needs in the field of fibrosis. Its therapeutic approach seeks to not only halt but also potentially reverse the progression of fibrotic conditions, ultimately improving the quality of life for affected individuals.

Synlogic, Inc. is a clinical-stage biopharmaceutical company based in Cambridge, Massachusetts, specializing in the discovery and development of synthetic biotic medicines aimed at treating metabolic, inflammatory, and cancer-related diseases. The company’s lead therapeutic program, SYNB1618, is an oral therapy currently in Phase I/IIa clinical trials for the treatment of phenylketonuria. Additionally, Synlogic is developing SYNB1891, an intratumoral synthetic biotic medicine that is undergoing Phase I clinical trials for the treatment of solid tumors and lymphoma. The company is also exploring synthetic biotics for more common conditions, including inflammatory bowel disease and secondary hyperoxaluria. Synlogic has established a collaboration with Ginkgo Bioworks to advance its development of these innovative therapies.

Magenta is focused on improving the patient experience in transplant medicine, with the goal of bringing this lifesaving procedure to more patients. Over the past 50 years, stem cell transplantation has been used in more than 1M patients worldwide. It is currently the only treatment with the potential to cure some of the most devastating hematologic cancers and autoimmune diseases. Despite the increased use and clinical advancements over the past several decades, stem cell transplant remains a high-risk last-resort therapeutic option due to the toxicity and potential long-term side effects.

Spero Therapeutics, a clinical-stage biopharmaceutical company based in Cambridge, Massachusetts, specializes in developing novel therapies for multi-drug resistant (MDR) bacterial infections and rare diseases. Its key product candidates include tebipenem pivoxil hydrobromide, an oral carbapenem-class antibiotic intended for adults with MDR Gram-negative infections, and SPR206, an intravenous agent targeting MDR Gram-negative infections in hospital settings. Additionally, the company is advancing SPR720, an oral antibiotic designed for treating pulmonary non-tuberculous mycobacterial disease. Spero Therapeutics has established various collaborations and license agreements to support the development and commercialization of its products, including partnerships with Meiji Seika Pharma, Everest Medicines, and the Bill & Melinda Gates Medical Research Institute. Founded in 2013, Spero aims to address the critical need for effective treatments against serious bacterial infections using innovative approaches and mechanisms.

Translate Bio is a clinical-stage biotechnology company based in Lexington, Massachusetts, that focuses on developing messenger RNA (mRNA) therapeutics aimed at treating diseases linked to protein or gene dysfunction. Since its founding in 2011, the company has been working on innovative treatments, including MRT5005, which is currently undergoing Phase I/II clinical trials for cystic fibrosis, and MRT5201, intended for the treatment of ornithine transcarbamylase deficiency. Translate Bio aims to create transformative medicines that address unmet medical needs in rare diseases.

Magenta is focused on improving the patient experience in transplant medicine, with the goal of bringing this lifesaving procedure to more patients. Over the past 50 years, stem cell transplantation has been used in more than 1M patients worldwide. It is currently the only treatment with the potential to cure some of the most devastating hematologic cancers and autoimmune diseases. Despite the increased use and clinical advancements over the past several decades, stem cell transplant remains a high-risk last-resort therapeutic option due to the toxicity and potential long-term side effects.

Delinia, Inc. is a biotechnology company based in San Francisco, California, dedicated to developing innovative therapeutics for autoimmune and inflammatory diseases. Founded in 2014, Delinia's primary focus is on a lead program that involves a molecule designed to selectively potentiate and expand regulatory T cells (Tregs), which play a vital role in maintaining self-tolerance and immune system balance. The company's scientific founders and experienced leadership team are committed to advancing its therapeutic programs toward clinical application. As of 2017, Delinia operates as a subsidiary of Celgene Corporation.

Avrobio is a clinical-stage gene therapy company based in Cambridge, Massachusetts, focused on developing ex vivo lentiviral gene therapies aimed at treating rare diseases with a single-dose approach. The company utilizes hematopoietic stem cells collected from patients, which are modified using a lentiviral vector to insert functional copies of defective genes associated with specific diseases. Avrobio's lead product candidate, AVR-RD-01, is currently in Phase II clinical trials for Fabry disease. Additionally, the company's pipeline includes AVR-RD-02, which has completed preclinical trials for type 1 Gaucher disease; AVR-RD-03, in preclinical development for Pompe disease; and AVR-RD-04, which has also completed preclinical studies for cystinosis. Avrobio has established a research collaboration with Magenta Therapeutics to explore targeted antibody-drug conjugates as a conditioning regimen for its lentiviral gene therapies. Founded in 2015, Avrobio aims to leverage advancements in cell and gene therapies to provide potential cures for serious and debilitating conditions.

IFM Therapeutics specializes in developing small molecule medicines that target the innate immune system to address complex challenges in treating inflammatory and autoimmune disorders, as well as cancer. The company collaborates with academic partners to leverage expertise in innate immunity alongside experienced drug discovery professionals. Its subsidiary, IFM Due, focuses on discovering and developing antagonists of the cGAS/STING pathway, aiming to treat conditions such as inflammation, neuroinflammation, autoimmunity, and cancer. Additionally, IFM Discovery, a newly established incubator within the company, is engaged in advancing a portfolio of genetically validated targets for next-generation therapies addressing inflammation, neuroinflammation, autoimmunity, and fibrosis. Through these initiatives, IFM Therapeutics seeks to enhance immune response and improve the quality of life for patients facing serious health challenges.

Gemini Therapeutics, Inc. is a precision medicine company established in 2015 and based in Cambridge, Massachusetts. The company specializes in developing therapies for patients with dry age-related macular degeneration (AMD) and related rare genetic diseases. Gemini's approach focuses on addressing genetically-defined conditions by creating therapeutic candidates that target specific molecular abnormalities prevalent in patients with significant clinical needs. Their diverse pipeline features a range of innovative treatment modalities, including monoclonal antibodies, recombinant proteins, and gene therapies. The company has secured funding from prominent life science investors and collaborates with academic institutions globally to advance its mission of delivering potentially first-in-class therapeutics.

Avrobio is a clinical-stage gene therapy company based in Cambridge, Massachusetts, focused on developing ex vivo lentiviral gene therapies aimed at treating rare diseases with a single-dose approach. The company utilizes hematopoietic stem cells collected from patients, which are modified using a lentiviral vector to insert functional copies of defective genes associated with specific diseases. Avrobio's lead product candidate, AVR-RD-01, is currently in Phase II clinical trials for Fabry disease. Additionally, the company's pipeline includes AVR-RD-02, which has completed preclinical trials for type 1 Gaucher disease; AVR-RD-03, in preclinical development for Pompe disease; and AVR-RD-04, which has also completed preclinical studies for cystinosis. Avrobio has established a research collaboration with Magenta Therapeutics to explore targeted antibody-drug conjugates as a conditioning regimen for its lentiviral gene therapies. Founded in 2015, Avrobio aims to leverage advancements in cell and gene therapies to provide potential cures for serious and debilitating conditions.

Synlogic, Inc. is a clinical-stage biopharmaceutical company based in Cambridge, Massachusetts, specializing in the discovery and development of synthetic biotic medicines aimed at treating metabolic, inflammatory, and cancer-related diseases. The company’s lead therapeutic program, SYNB1618, is an oral therapy currently in Phase I/IIa clinical trials for the treatment of phenylketonuria. Additionally, Synlogic is developing SYNB1891, an intratumoral synthetic biotic medicine that is undergoing Phase I clinical trials for the treatment of solid tumors and lymphoma. The company is also exploring synthetic biotics for more common conditions, including inflammatory bowel disease and secondary hyperoxaluria. Synlogic has established a collaboration with Ginkgo Bioworks to advance its development of these innovative therapies.

Spero Therapeutics, a clinical-stage biopharmaceutical company based in Cambridge, Massachusetts, specializes in developing novel therapies for multi-drug resistant (MDR) bacterial infections and rare diseases. Its key product candidates include tebipenem pivoxil hydrobromide, an oral carbapenem-class antibiotic intended for adults with MDR Gram-negative infections, and SPR206, an intravenous agent targeting MDR Gram-negative infections in hospital settings. Additionally, the company is advancing SPR720, an oral antibiotic designed for treating pulmonary non-tuberculous mycobacterial disease. Spero Therapeutics has established various collaborations and license agreements to support the development and commercialization of its products, including partnerships with Meiji Seika Pharma, Everest Medicines, and the Bill & Melinda Gates Medical Research Institute. Founded in 2013, Spero aims to address the critical need for effective treatments against serious bacterial infections using innovative approaches and mechanisms.

Rodin Therapeutics is a biotechnology company based in Cambridge, Massachusetts, focused on developing therapeutics for cognitive disorders through the application of epigenetic insights. Founded in 2013 with backing from Atlas Venture and Johnson & Johnson Development Corporation, the company leverages advanced structural biology capabilities and a team experienced in central nervous system (CNS) drug development. Rodin's innovative approach centers on the modulation of histone deacetylase (HDAC) complexes to restore synaptic function and promote neuronal health in degenerative brain diseases. This strategy aims to address significant unmet medical needs in the treatment of neurological disorders. As of November 2019, Rodin operates as a subsidiary of Alkermes Inc.

MiRagen is a biopharmaceutical company that discovers and develops innovative microRNA-targeting therapies to improve human health, specifically in disease areas of high unmet medical need. The company leverages in-house expertise in miRNA biology, oligonucleotide chemistry, and drug development to evaluate and advance best-in-class technologies and high-potential drug candidates for its own pipeline or in conjunction with strategic partners. The company was founded in 2007 and headquartered in Boulder, Colorado.

MiRagen is a biopharmaceutical company that discovers and develops innovative microRNA-targeting therapies to improve human health, specifically in disease areas of high unmet medical need. The company leverages in-house expertise in miRNA biology, oligonucleotide chemistry, and drug development to evaluate and advance best-in-class technologies and high-potential drug candidates for its own pipeline or in conjunction with strategic partners. The company was founded in 2007 and headquartered in Boulder, Colorado.

Replimune Group, Inc., a biotechnology company, develops oncolytic immune-gene therapies to treat cancer. It uses its proprietary Immulytic platform to design and develop product candidates that are intended to activate the immune system against cancer. The company’s lead product candidate is RP1, a selectively replicating version of herpes simplex virus 1, which is in Phase I/II clinical trials for a range of solid tumors; and that is in Phase II clinical trials for patients with cutaneous squamous cell carcinoma. It is also developing RP2, which is in Phase I clinical trials for an anti-CTLA-4 antibody-like protein in order to block the inhibition of the immune response otherwise caused by CTLA-4; and RP3 to express immune-activating proteins that stimulate T cells. Replimune Group, Inc. was founded in 2015 and is headquartered in Woburn, Massachusetts.

Intellia Therapeutics is a genome editing company based in Cambridge, Massachusetts, focused on developing curative gene-editing treatments using the CRISPR/Cas9 technology. The company aims to address severe and life-threatening genetic diseases through both in vivo and ex vivo therapeutic approaches. Its pipeline includes programs targeting liver diseases such as transthyretin amyloidosis and hereditary angioedema, as well as conditions like primary hyperoxaluria Type 1, alpha-1 antitrypsin deficiency, and Hemophilia B. Additionally, Intellia is developing engineered cell therapies for oncological and autoimmune diseases. The company has established collaborations with various entities, including leading pharmaceutical firms and research institutions, to enhance its research and development efforts. Founded in 2014, Intellia Therapeutics holds a comprehensive intellectual property platform for the therapeutic application of CRISPR technology, positioning it at the forefront of gene editing innovation.

Spero Therapeutics, a clinical-stage biopharmaceutical company based in Cambridge, Massachusetts, specializes in developing novel therapies for multi-drug resistant (MDR) bacterial infections and rare diseases. Its key product candidates include tebipenem pivoxil hydrobromide, an oral carbapenem-class antibiotic intended for adults with MDR Gram-negative infections, and SPR206, an intravenous agent targeting MDR Gram-negative infections in hospital settings. Additionally, the company is advancing SPR720, an oral antibiotic designed for treating pulmonary non-tuberculous mycobacterial disease. Spero Therapeutics has established various collaborations and license agreements to support the development and commercialization of its products, including partnerships with Meiji Seika Pharma, Everest Medicines, and the Bill & Melinda Gates Medical Research Institute. Founded in 2013, Spero aims to address the critical need for effective treatments against serious bacterial infections using innovative approaches and mechanisms.

Nimbus Therapeutics is a biotechnology company based in Cambridge, Massachusetts, that specializes in discovering and developing innovative small molecule therapeutics for serious diseases, including metabolic disorders, cancer, and immune-inflammatory conditions. The company employs a computational technology-driven approach to advance its diverse pipeline of drug candidates into clinical development. Its Nimbus Apollo program includes the lead candidate NDI-010976, an allosteric inhibitor targeting Acetyl-CoA Carboxylase, which is being investigated for treating non-alcoholic steatohepatitis and hepatocellular carcinoma, among other diseases. NDI-010976 received Fast Track designation from the U.S. Food and Drug Administration in 2016, and the company aims to leverage its strategic partnerships to enhance its research and development efforts. Founded in 2009, Nimbus Therapeutics continues to focus on creating highly selective and potent medicines that address unmet medical needs.

MiRagen is a biopharmaceutical company that discovers and develops innovative microRNA-targeting therapies to improve human health, specifically in disease areas of high unmet medical need. The company leverages in-house expertise in miRNA biology, oligonucleotide chemistry, and drug development to evaluate and advance best-in-class technologies and high-potential drug candidates for its own pipeline or in conjunction with strategic partners. The company was founded in 2007 and headquartered in Boulder, Colorado.

Lysosomal Therapeutics, Inc. is focused on discovering and developing small-molecule therapies aimed at treating severe neurological diseases, including Gaucher-related neurodegeneration and Parkinson’s disease. Founded in 2011 and based in Cambridge, Massachusetts, the company utilizes a research strategy that capitalizes on the established connection between lysosomal disorders and neurodegenerative conditions. This approach supports the development of innovative treatment options for patients affected by movement, cognition, and overall health issues related to these diseases. By leveraging clinically validated insights, Lysosomal Therapeutics aims to create effective therapies to address the unmet medical needs in the field of neurodegeneration.

Surface Oncology was created to advance next-generation approaches to cancer immunotherapy based on proprietary insights about novel immunotherapy targets and emerging areas of cancer immuno-biology. Together with world-leading scientific founders, the Company is advancing multiple preclinical programs that target novel mechanisms shown to play vital roles in tumor immune-evasion. Surface is based in Cambridge, Mass.

Intellia Therapeutics is a genome editing company based in Cambridge, Massachusetts, focused on developing curative gene-editing treatments using the CRISPR/Cas9 technology. The company aims to address severe and life-threatening genetic diseases through both in vivo and ex vivo therapeutic approaches. Its pipeline includes programs targeting liver diseases such as transthyretin amyloidosis and hereditary angioedema, as well as conditions like primary hyperoxaluria Type 1, alpha-1 antitrypsin deficiency, and Hemophilia B. Additionally, Intellia is developing engineered cell therapies for oncological and autoimmune diseases. The company has established collaborations with various entities, including leading pharmaceutical firms and research institutions, to enhance its research and development efforts. Founded in 2014, Intellia Therapeutics holds a comprehensive intellectual property platform for the therapeutic application of CRISPR technology, positioning it at the forefront of gene editing innovation.

Quartet Medicine, Inc. is a biotechnology company based in Cambridge, Massachusetts, established in 2013. It focuses on developing innovative treatments for chronic pain and inflammation by targeting the restoration of tetrahydrobiopterin (BH4) homeostasis in neuronal and inflammatory cells. Research indicates that increased levels of BH4 play a crucial role in managing peripheral nerve dysfunction and regulating immune cells. Founded by scientists from Boston Children’s Hospital and École Polytechnique Fédérale de Lausanne, Quartet Medicine collaborates with various research partners in Europe and Asia to advance its therapeutic approaches. The company has attracted investment from notable firms, reflecting confidence in its mission to address significant health challenges associated with chronic pain.

Cogent Biosciences Inc a biotechnology company focused on developing precision therapies for genetically defined diseases. It designs rational precision therapies that treat the underlying cause of disease and improve the lives of patients. Its program CGT9486, is a selective tyrosine kinase inhibitor designed to potently inhibit the KIT D816V mutation as well as other mutations in KIT exon 17. In the vast majority of cases, KIT D816V is responsible for driving Systemic Mastocytosis (SM), a serious disease caused by the unchecked proliferation of mast cells. Exon 17 mutations are also found in patients with advanced gastrointestinal stromal tumors (GIST), a type of cancermore

Unum Therapeutics is a biopharmaceutical company focused on developing immunotherapy products for cancer treatment, utilizing proprietary T-cell engineering technology. The company’s lead programs, based on its Antibody-Coupled T-cell Receptor (ACTR) technology, are in Phase I clinical trials. These include ACTR707 and ACTR087, both being tested in combination with rituximab for relapsed or refractory CD20+ non-Hodgkin lymphoma, as well as ACTR087 combined with SEA-BCMA for relapsed multiple myeloma. Additionally, ACTR707 is being evaluated with trastuzumab for HER2+ solid tumors. Unum Therapeutics is also exploring BOXR1030, a pre-clinical candidate targeting glypican-3 to enhance T cell functionality in the solid tumor microenvironment. Founded in 2014 and headquartered in Cambridge, Massachusetts, Unum aims to activate the body’s immune system to effectively combat cancer through its innovative therapies.

Raze Therapeutics focuses on discovering and developing innovative oncology therapeutics that target essential metabolic pathways crucial for cancer growth and survival. The company is advancing a pipeline of treatments based on novel biological insights into how cancer cells reprogram their metabolism to support tumor development. By selectively targeting one-carbon metabolism through a proprietary platform, Raze aims to provide patients with quicker access to treatment and improve the chances of successful outcomes.

Bicycle Therapeutics is a clinical-stage biopharmaceutical company developing a novel class of medicines which are referred to as Bicycles. The Bicycles are synthetic short peptides constrained to form two loops which stabilize their structural geometry. Its initial internal programs are focused on oncology indications with high unmet medical need. The company's product candidate, BT1718, is a Bicycle Toxin Conjugate, or BTC.

Synlogic, Inc. is a clinical-stage biopharmaceutical company based in Cambridge, Massachusetts, specializing in the discovery and development of synthetic biotic medicines aimed at treating metabolic, inflammatory, and cancer-related diseases. The company’s lead therapeutic program, SYNB1618, is an oral therapy currently in Phase I/IIa clinical trials for the treatment of phenylketonuria. Additionally, Synlogic is developing SYNB1891, an intratumoral synthetic biotic medicine that is undergoing Phase I clinical trials for the treatment of solid tumors and lymphoma. The company is also exploring synthetic biotics for more common conditions, including inflammatory bowel disease and secondary hyperoxaluria. Synlogic has established a collaboration with Ginkgo Bioworks to advance its development of these innovative therapies.

Surface Oncology was created to advance next-generation approaches to cancer immunotherapy based on proprietary insights about novel immunotherapy targets and emerging areas of cancer immuno-biology. Together with world-leading scientific founders, the Company is advancing multiple preclinical programs that target novel mechanisms shown to play vital roles in tumor immune-evasion. Surface is based in Cambridge, Mass.

Synlogic, Inc. is a clinical-stage biopharmaceutical company based in Cambridge, Massachusetts, specializing in the discovery and development of synthetic biotic medicines aimed at treating metabolic, inflammatory, and cancer-related diseases. The company’s lead therapeutic program, SYNB1618, is an oral therapy currently in Phase I/IIa clinical trials for the treatment of phenylketonuria. Additionally, Synlogic is developing SYNB1891, an intratumoral synthetic biotic medicine that is undergoing Phase I clinical trials for the treatment of solid tumors and lymphoma. The company is also exploring synthetic biotics for more common conditions, including inflammatory bowel disease and secondary hyperoxaluria. Synlogic has established a collaboration with Ginkgo Bioworks to advance its development of these innovative therapies.

MiRagen is a biopharmaceutical company that discovers and develops innovative microRNA-targeting therapies to improve human health, specifically in disease areas of high unmet medical need. The company leverages in-house expertise in miRNA biology, oligonucleotide chemistry, and drug development to evaluate and advance best-in-class technologies and high-potential drug candidates for its own pipeline or in conjunction with strategic partners. The company was founded in 2007 and headquartered in Boulder, Colorado.

Rodin Therapeutics is a biotechnology company based in Cambridge, Massachusetts, focused on developing therapeutics for cognitive disorders through the application of epigenetic insights. Founded in 2013 with backing from Atlas Venture and Johnson & Johnson Development Corporation, the company leverages advanced structural biology capabilities and a team experienced in central nervous system (CNS) drug development. Rodin's innovative approach centers on the modulation of histone deacetylase (HDAC) complexes to restore synaptic function and promote neuronal health in degenerative brain diseases. This strategy aims to address significant unmet medical needs in the treatment of neurological disorders. As of November 2019, Rodin operates as a subsidiary of Alkermes Inc.

Lysosomal Therapeutics, Inc. is focused on discovering and developing small-molecule therapies aimed at treating severe neurological diseases, including Gaucher-related neurodegeneration and Parkinson’s disease. Founded in 2011 and based in Cambridge, Massachusetts, the company utilizes a research strategy that capitalizes on the established connection between lysosomal disorders and neurodegenerative conditions. This approach supports the development of innovative treatment options for patients affected by movement, cognition, and overall health issues related to these diseases. By leveraging clinically validated insights, Lysosomal Therapeutics aims to create effective therapies to address the unmet medical needs in the field of neurodegeneration.

Spero Therapeutics, a clinical-stage biopharmaceutical company based in Cambridge, Massachusetts, specializes in developing novel therapies for multi-drug resistant (MDR) bacterial infections and rare diseases. Its key product candidates include tebipenem pivoxil hydrobromide, an oral carbapenem-class antibiotic intended for adults with MDR Gram-negative infections, and SPR206, an intravenous agent targeting MDR Gram-negative infections in hospital settings. Additionally, the company is advancing SPR720, an oral antibiotic designed for treating pulmonary non-tuberculous mycobacterial disease. Spero Therapeutics has established various collaborations and license agreements to support the development and commercialization of its products, including partnerships with Meiji Seika Pharma, Everest Medicines, and the Bill & Melinda Gates Medical Research Institute. Founded in 2013, Spero aims to address the critical need for effective treatments against serious bacterial infections using innovative approaches and mechanisms.

Spero Therapeutics, a clinical-stage biopharmaceutical company based in Cambridge, Massachusetts, specializes in developing novel therapies for multi-drug resistant (MDR) bacterial infections and rare diseases. Its key product candidates include tebipenem pivoxil hydrobromide, an oral carbapenem-class antibiotic intended for adults with MDR Gram-negative infections, and SPR206, an intravenous agent targeting MDR Gram-negative infections in hospital settings. Additionally, the company is advancing SPR720, an oral antibiotic designed for treating pulmonary non-tuberculous mycobacterial disease. Spero Therapeutics has established various collaborations and license agreements to support the development and commercialization of its products, including partnerships with Meiji Seika Pharma, Everest Medicines, and the Bill & Melinda Gates Medical Research Institute. Founded in 2013, Spero aims to address the critical need for effective treatments against serious bacterial infections using innovative approaches and mechanisms.

F-star Therapeutics, Inc., a clinical-stage biopharmaceutical company develops tetravalent bispecific antibodies for cancer therapy. Its medicines used in immuno-oncology treatments. The company plans for the initiation of a Phase I, open label, first-in-human clinical study of FS222, a bispecific antibody targeting CD137 (4-1BB) and PD-L1. The company is based in Cambridge, the United Kingdom.

Harbour Antibodies BV, established in 2006 and based in Rotterdam, Netherlands, specializes in the production of antibodies and VH domains for therapeutic applications. The company utilizes advanced transgenic mouse technology to engineer mice capable of generating high affinity human antibodies. It has developed two key types of human immunoglobulin gene transgenic mice: those that produce conventional tetrameric antibodies, known as H2L2 antibodies, which consist of two heavy and two light chains, and those that generate heavy chain-only antibodies (HCAbs), which lack light chains. The availability of HCAbs allows for the generation of soluble human VH domains, facilitating the creation of innovative multi-functional molecules. Harbour Antibodies' transgenic mouse lines are accessible to licensing partners, enhancing research and development in the field of antibody therapeutics. The company operates as a subsidiary of Harbour BioMed.

Rodin Therapeutics is a biotechnology company based in Cambridge, Massachusetts, focused on developing therapeutics for cognitive disorders through the application of epigenetic insights. Founded in 2013 with backing from Atlas Venture and Johnson & Johnson Development Corporation, the company leverages advanced structural biology capabilities and a team experienced in central nervous system (CNS) drug development. Rodin's innovative approach centers on the modulation of histone deacetylase (HDAC) complexes to restore synaptic function and promote neuronal health in degenerative brain diseases. This strategy aims to address significant unmet medical needs in the treatment of neurological disorders. As of November 2019, Rodin operates as a subsidiary of Alkermes Inc.

CoStim Pharmaceuticals Inc. is a biotechnology company based in Boston, Massachusetts, focused on developing innovative antibody agents for cancer treatment. Founded in 2011, the company specializes in cancer immunotherapy, creating antibody drugs that target immunological checkpoint control mechanisms. By harnessing the body's immune response, CoStim aims to improve therapeutic options for patients with cancer.

Bicycle Therapeutics is a clinical-stage biopharmaceutical company developing a novel class of medicines which are referred to as Bicycles. The Bicycles are synthetic short peptides constrained to form two loops which stabilize their structural geometry. Its initial internal programs are focused on oncology indications with high unmet medical need. The company's product candidate, BT1718, is a Bicycle Toxin Conjugate, or BTC.

Larimar Therapeutics, Inc. is a clinical-stage biotechnology company focused on developing treatments for complex rare diseases. The company’s lead compound, CTI-1601, is currently being evaluated in a Phase 1 clinical program as a potential treatment for Friedreich’s ataxia, a rare and progressive genetic disease. Larimar also plans to use its intracellular delivery platform to design other fusion proteins to target additional rare diseases characterized by deficiencies in intracellular bioactive compounds.