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At LAVA, we are focused on applying our expertise in gamma-delta T-cell engagers (TCEs) to transform cancer therapy. We refer to our compounds as gamma-delta bispecific T-cell engagers, or gamma-delta bsTCEs. Our platform generates therapeutics that specifically activate a unique and relatively abundant effector gamma-delta T-cell subset called Vγ9Vδ2 (Vgamma9-Vdelta2) T-cells that have the ability to trigger activity of immune cells of both the innate and adaptive immune system. Our gamma-delta bsTCEs have demonstrated superior efficacy and safety profiles compared to other bsTCE approaches in preclinical studies and show preferential activity against tumor cells thereby potentially limiting toxicity in healthy tissue. To date, we are the only company developing bispecific gamma-delta T-cell engaging antibodies for the treatment of cancer. We are building a pipeline of gamma-delta bsTCEs that have applications in both solid and hematologic malignancies. Our lead program, LAVA-051, targets the tumor specific antigen CD1d, which can be overexpressed in multiple myeloma, chronic lymphocytic leukemia (CLL), and acute myeloid leukemia (AML), among other tumor types. LAVA-051 will enter a Phase I/IIa study in 1Q21.
K Biosciences is a Beverly, MA-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
At IFM Therapeutics, LLC, we work to improve the lives of patients with inflammatory disorders and cancer by developing transformative medicines that precisely target the innate immune system, the body`s first line of immunological response and an essential component of immune function.
Urigen Pharmaceuticals is a Burlingame, CA-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
ALSP Inc. (American Life Science Pharmaceuticals, Inc.), is a privately held company based in San Diego, California, developing new small molecule drugs for treating neurodegenerative disease initially focused on traumatic brain injury and Alzheimer`s disease. Our approach is to identify key enzymes in the brain, called proteases, which produce biologically active peptides, proteins or processes that are thought to underlie the disease. We then use those enzymes as targets for screening compounds that inhibit these proteases and thereby prevent the harmful effect caused by these peptides, proteins and processes to treat the disease. By using this innovative process, our goal is to create and advance highly-effective drug development strategies and products for treating not only traumatic brain injury and Alzheimer`s disease, but other Neurodegenerative Conditions such as Huntington`s disease, Parkinson`s disease and MS, and recover quality of life for those patients and their families.