FORMA Therapeutics and Celgene Corporation Establish Broad Strategic Collaboration
News May 01, 2013
Protein homeostasis, which is important in oncology, neurodegenerative and other disorders, involves a tightly regulated network of pathways controlling the biogenesis, folding, transport and degradation of proteins.
The collaboration between FORMA and Celgene will be launched with an undisclosed up-front payment that will enable Celgene to evaluate selected targets and lead assets in protein homeostasis pathways during the pre-clinical phase. Based on such evaluation, Celgene will have the right to obtain exclusive licenses with respect to the development and commercialization of multiple drug candidates outside of the United States, in exchange for research and early development payments of up to $200 million to FORMA. Under the terms of the collaboration agreement, FORMA is incentivized to advance the full complement of drug candidates through Phase 1, while Celgene will be responsible for all further global clinical development for each licensed candidate. FORMA is eligible to receive $315 million in potential payments based upon development, regulatory and sales objectives for the first ex-U.S. license. FORMA is also eligible to receive potential payments for successive licenses, which escalate for productivity increasing up to a maximum of $430 million per program. In addition, FORMA will receive royalties on ex-U.S. sales and additional payments if multiple drug candidates reach defined cumulative sales objectives, providing a significant incentive for FORMA to advance multiple drug candidates.
“We are enthusiastic about the very innovative scientific and business structure approach this collaboration represents. FORMA’s unique drug discovery platform and disruptive approach to discovery of high impact therapies offers a valuable complement to our overall strategy,” said Thomas Daniel, M.D., President, Global Research and Early Development, Celgene Corporation.
Kenneth W. Bair, Ph.D., Chief Scientific Officer and Head of Research and Development, FORMA Therapeutics added, “This collaboration enables us to demonstrate the power of integrating FORMA’s drug discovery engine with the innovative translational science of Daniel D. Von Hoff, M.D., F.A.C.P., and his colleagues at TD2 to advance a broad pipeline of novel therapies. Further, protein homeostasis represents a new area of promising drug development after years of targeting kinase family proteins. This significant drug development collaboration has the potential to bring new drugs against novel targets and address unmet medical needs in the treatment of many cancers.”
“We are delighted to have Celgene, one of the world’s leading multinational biopharmaceutical organizations, as a long-term strategic partner,” said Steven Tregay, Ph.D., President and CEO, FORMA Therapeutics. “This collaboration provides the long-term commitment and resources to enable FORMA to execute on its vision to build an integrated company bringing transformative cancer therapies to patients in need.”
“This collaboration with FORMA is consistent with our corporate R&D strategy, engaging in large collaborations with leading companies working in emerging areas of biology,” stated George Golumbeski, Ph.D., Senior Vice President for Business Development, Celgene Corporation. “Our partnership with FORMA represents a remarkably broad and expansive research collaboration, demonstrating our commitment to treat serious and life threatening diseases.”
“In an era where the biological understanding of disease and associated molecular pathways is extremely complex, the ability to successfully deliver preventative and therapeutic solutions requires equally creative approaches be applied to both the business and scientific aspects of a collaboration. Our emphasis has been to build unique capital-efficient business structures tailored to our partner’s needs and optimized to maximize both shareholder value and accelerated delivery of products to patients,” said Rob Sarisky, Ph.D., Chief Business Officer, FORMA Therapeutics.
Heart-on-a-chip Manufactured More Efficiently to Speed Up Drug TestingNews
Testing new clinical drugs' effect on heart tissue could become quicker and more straightforward, thanks to new research from Harvard University.
The study, sets out a new, faster method for manufacturing a 'heart-on-a-chip', which can be used to test the reaction of heart tissue to external stimuli.
Protein's Role in Mitochondrial Metabolism IdentifiedNews
EXD2, a protein previously thought to be localised to the nucleus, has a key role in the production of proteins by mitochondria.READ MORE
PPD and Quotient Sciences Form Innovative Partnership to Accelerate Pediatric Drug DevelopmentNews
Will shorten timelines, reduce costs and simplify contracting process in pediatric programs.READ MORE