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We are dedicated to developing and commercializing effective and broadly applicable interventions for food allergy. Food allergy is a disease of the immune system that is triggered by an exceptionally broad range of commonly allergenic foods such as cow’s milk, eggs, tree nuts, peanuts, shellfish and even sesame. In a perfect world, the human immune system would adapt to all foods. However, in tens of millions of people, the immune system wrongly recognizes some food proteins as harmful and does not adapt. We envision a world where, with help from oral immunotherapy, the immune system can adapt to nearly all food allergens. And we built our inspiration into our name—Alladapt. Alladapt was co-founded in 2018 in Palo Alto, California, by allergist and protein biochemist Kari Nadeau, MD, PhD, and biotechnology entrepreneur, Ashley Dombkowski, PhD. Academic clinical research conducted by Dr. Nadeau has demonstrated that a food allergic immune system in an individual person can be receptive to remodeling by gradually increasing exposure, under tightly controlled clinical supervision, to the proteins that activate the inappropriate cascade of reactions. This work, combined with research illuminating disease mechanisms and pathways, led the founders to envision a biopharmaceutical intervention capable of addressing food allergy provoked by a wide-ranging set of antigens. Food allergy is a serious disease, with potentially life-threatening consequences. The disease has grown dramatically in recent years and now affects more than 6 million children¹ and 26 million adults² in the United States alone. Importantly, about half of people with food allergy are reactive to multiple foods, which further increases the risk of anaphylaxis due to accidental ingestion. The chronic, unpredictable components of this disease can elevate anxiety in patients and their families, and place extreme limitations on their lives. It is our goal to help patients experience more of life’s magical moments with less fear and greater confidence.
Axsome Therapeutics is a biopharmaceutical company developing novel therapies for the treatment of CNS disorders. Axsome has a balanced portfolio of clinical development stage as well as research stage product candidates. The company is based in New York City.
Lion Biotechnologies (LBIO) is focused on the development and commercialization of novel cancer immunotherapies based on tumor infiltrating lymphocytes (TIL). Under a collaborative research and development agreement with Dr. Steven A. Rosenberg at the National Cancer Institute, we are investigating our our lead product candidate, LN-144, in the treatment of stage 4 metastatic melanoma. In clinical trials, LN-144 has demonstrated curative potential in patients with metastatic melanoma, and it may also be applicable to a wide range of other solid tumors. As we continue advancing our current clinical programs in collaboration with NCI, Moffitt Cancer Center and MD Anderson, we are also developing next-generation TIL products and an optimized manufacturing process that will enable the production of highly potent, engineered cells at a significantly reduced cost. With unique and versatile technology, promising clinical programs, strong intellectual property, high-profile collaborations and seasoned leadership, Lion is committed to elevating hope and treatment standards for patients, while creating exceptional value for its shareholders.
Montigen Pharmaceuticals is a Salt Lake City, UT-based company in the Healthcare, Pharmaceuticals, and Biotech sector.
What if we told you that our bodies make use of only a few hundred different signaling pathways to control all of our 20,000 or so genes. We call it the gene circuitry code, unique for every gene in our body. CAMP4 has built a proprietary 4-D Gene Circuity Platform to codify the discrete set of combinatorial rules used by any human cell type central to disease pathology. By applying the power of computational biology and machine learning algorithms, CAMP4 is able to rapidly solve for druggable targets to control the output of any disease gene of interest.