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Nuvation Bio is a biopharmaceutical company tackling some of the greatest unmet needs in oncology by developing differentiated and novel therapeutic candidates. Nuvation Bio`s proprietary portfolio includes six novel and mechanistically distinct oncology therapeutic product candidates, each targeting some of the most difficult-to-treat types of cancer. Nuvation Bio was founded in 2018 by biopharma industry veteran David Hung, M.D., who previously founded Medivation, Inc., which brought to patients one of the world`s leading prostate cancer medicines. Nuvation Bio has offices in New York and San Francisco.
Incyte is a biopharmaceutical company focused on the discovery, development and commercialization of innovative medicines that will meet serious unmet medical needs in oncology and other diseases. Incyte is a company driven by innovation, and we believe that investment in cutting-edge science and the rigorous pursuit of R&D excellence can translate into new medicines for serious unmet medical needs that positively impact patients` lives. Incyte has a diverse and growing portfolio of first-in-class and best-in-class product candidates, including both small and large molecules. Incyte is headquartered in Wilmington, Delaware with operations in 10 European countries and Japan. Our more than 1,000 employees are led by distinguished executives with proven records of success. We are proud to have been recognized by Forbes as one of the World`s Most Innovative Companies for each of the past three years.
Exelixis, Inc., from the Greek word for “evolution,” is a biopharmaceutical company committed to developing and commercializing small molecule therapies with the potential to improve the treatment of cancer. Over the past decade, we have established a broad development platform, laying the foundation for our continued efforts to bring new therapies for cancer to patients in need. The history of our lead compounds, cabozantinib and cobimetinib, tells the story of our evolution as a company. Each of these compounds were discovered in our own laboratories and advanced by us into clinical development. In addition, we have leveraged our earlier stage drug discovery and development capabilities to establish multiple partnerships and collaborations with leading pharmaceutical and biopharmaceutical partners. These alliances are designed to advance the development of multiple Exelixis-discovered therapies, and allow Exelixis to focus on maximizing the potential of cabozantinib. Exelixis has worldwide rights to cabozantinib, which we believe could have the potential to treat a wide variety of cancers. Cabozantinib received its initial regulatory approval for a single indication in 2012, and is marketed for that indication under the trade name COMETRIQ®. Cabozantinib is also the subject of a broad, global clinical development program that includes approximately 45 ongoing or planned clinical trials. Exelixis is the sponsor of two active global, randomized phase 3 pivotal trials: the METEOR trial in metastatic renal cell carcinoma, for which positive top-line results were announced in July 2015, and the CELESTIAL trial in advanced hepatocellular carcinoma. Founded and incorporated in 1994, Exelixis is headquartered in South San Francisco, California. We are committed to excellence in all aspects of our business and are dedicated to improving the care of, and outcomes for, patients with cancer.
Palvella Therapeutics was founded with the single-minded goal of serving individuals suffering from serious rare genetic diseases with no approved treatments.
Our mission is to create a new generation of smarter medicines that outmaneuver complex diseases in ways previously inconceivable. To accomplish this mission, we are building a synthetic biology platform that could enable us to program next-generation cell and gene therapies with what we refer to as “gene circuits”. These gene circuits, which are created from novel and proprietary combinations of DNA sequences, are intended to reprogram cells with biological logic to sense inputs, compute decisions and respond to their cellular environments. We are designing gene circuits to improve the “intelligence” of cell and gene therapies in order to enhance their therapeutic effectiveness against a broad range of diseases that conventional medicines do not readily address.