Collaborating to Explore New Approaches for Existing Molecules
Health and Human Services Secretary Kathleen Se-
belius(l.) at the recent press event in Washington,
D.C. announcing Pfizer's collaboration with the Na-
tional Institutes of Health (photo credit: NIH, Ernie
Pfizer is a pioneering partner in a National Institutes of Health (NIH) collaborative program that will match academic researchers with dozens of pharmaceutical industry-owned molecules to help scientists explore new treatments for patients. The NIH's National Center for Advancing Translational Sciences  (NCATS) is initially partnering with a select group of pharmaceutical companies for the initiative's pilot phase.
The program — Discovering New Therapeutic Uses for Existing Molecules  — was unveiled at a recent press event in Washington, D.C., that included NIH Director Dr. Francis Collins and Health and Human Services Secretary Kathleen Sebelius, who characterized the initiative as "crowdsourcing to some of our brightest minds."
Pfizer, AstraZeneca and Eli Lilly will each provide academic medical centers with access to molecules they are no longer developing due to a lack of efficacy in their primary indication(s) or for strategic reasons.
"This program is a 'metacollaboration' that grew out of a conversation at an NIH-Industry Roundtable, when Francis Collins expressed an interest in creating a new initiative that expanded on a program we had with an academic medical center," said Pfizer's Chief Medical Officer Freda Lewis-Hall. "We worked with NIH to build a scalable model — not just one company collaborating with one university, but many companies, many universities and the NIH. We think it signals a key step forward for the emerging R&D ecosystem."
Turning Knowledge Into Therapies
In recent years, significant advances have been made in enhancing the understanding of disease, but it has proven difficult to turn this knowledge into new therapies. NCATS was established last year to help address this gap.
"With the incredible advances we are seeing in biomedical science, we need to find new ways to work with researchers actively engaged in expanding our knowledge of disease," said Rod MacKenzie, Group Senior Vice President, Head of PharmaTherapeutics, Pfizer Worldwide Research and Development. "This program will help us access new ideas from the entire NIH network of researchers — a truly unique opportunity to accelerate our collective knowledge of these molecules and pathways."
Some compounds are not effective for their initial intended use, but additional research may yield different therapeutic uses.
"Clearly, we need to speed the pace at which we are turning discoveries into better health outcomes," said Collins, who thanked Pfizer for being instrumental in getting the initiative off the ground and providing unprecedented access to its compounds.
The initiative will focus on a part of the therapeutic pipeline that traditionally has been difficult for researchers to access: compounds that already have cleared safety testing in humans. Industry partners will retain ownership of their compounds, while academic partners will own any intellectual property they discover through the research project and the right to publish their results.