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NeuroVasc Technologies is a developer of mechanical thrombectomy solutions for revascularization of the brain.
Agenus is an immuno-oncology company driven by innovation and speed. Our goal is to treat cancers with novel combinations utilizing our unique portfolio of checkpoint antibodies, tumor microenvironment modifiers, vaccines and adjuvants. In addition to a broad portfolio, we have an accomplished team of scientists, novel technology platforms and fully-integrated end-to-end capabilities from discovery to GMP manufacturing. With our remarkable combination of science and people, we believe that we are uniquely positioned to bring curative treatments to cancer patients.
Response Genetics is a Los Angeles, CA-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
Dow Pharmaceutical Sciences is a Petaluma, CA-based company in the Healthcare, Pharmaceuticals, & Biotech sector.
Protagonist Therapeutics is a biotechnology company pursuing the discovery and development of target oral peptides as well differentiated alternatives to antibodies, and also as new chemical entities (NCEs) against those targets and life threatening diseases for which suitable small molecule and/or biologic options are not available. Peptides typically suffer from limitations of poor proteolytic stability and therefore find scarce therapeutic utility that is largely limited to ‘injectable drugs’. Protagonist’s technology platform is aimed at overcoming these restrictions and expanding the scope of peptide therapeutics to address unmet needs. Specific emphasis is placed on identifying ‘orally stable’ scaffolds and/or engineering oral stability characteristics onto them. The platform has been optimized over the years and involves synergistic integration of rational drug design, diversity oriented computational tools, phage display libraries, recombinant peptide expression, ex vivo oral stability methods, and peptide/medicinal chemistry techniques. This activity has led to the identification of ‘privileged scaffolds’ with favorable oral stability characteristics. Furthermore, the technology platform is well suited both for de novo discovery against a target and optimization around a given chemical starting point.