On April 19, 2016 SignalRx Pharmaceuticals Inc., focused on developing more effective oncology drugs through molecular design imparting multiple target-selected inhibition, reported the presentation of scientific data on the company’s dual small-molecule PI3K/BRD4 inhibitor program in oncology (Press release, SignalRx, APR 19, 2016, http://www.ireachcontent.com/news-releases/signalrx-presents-at-aacr-annual-meeting-on-first-in-class-dual-pi3kbrd4-inhibitors-for-treating-cancer-576189881.html [SID1234517422]). The presentation by Dr. Donald L. Durden, MD, PhD, senior scientific advisor for SignalRx, was made at the American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting in New Orleans, LA.
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The presentation highlighted advancements in the development of SF2523, SF2535 and SF2558HA, all single small molecules that inhibit both PI3 kinase (PI3K) and the new epigenetic cancer target BRD4. Key breakthroughs are:
New crystal structures obtained for SF2523, SF2535 and SF2558HA with BRD4 protein providing insights on key dual inhibitor binding interactions.
First-time proof of MYC inhibition by enhancing MYC degradation via PI3K inhibition AND blocking MYC production via MYC transcription inhibition (BRD4 inhibition).
SF2523 exhibits desired in vivo anti-tumor effects with no toxicity in several mouse cancer models.
Inhibition of PI3K-gamma and delta isoforms by SF2523 function as checkpoint inhibitors and enhance immune-therapeutics.
BRD4 inhibition blocks tumor-specific super-enhancers activating the innate and adaptive immune response providing a novel strategy to treat cancer.
The company also demonstrated that SF2523 is safer to normal cells over the combination of single PI3K and BRD4 inhibitors making SF2523 an attractive anti-cancer candidate that can potentially overcome traditional toxicity issues associated with most combinations of oncology drugs.
SignalRx is also announcing that it is seeking a partner to accelerate the development of these novel small molecules into first-in-man clinical trials based on the promising profile of its PI3K/BRD4 inhibitors shown so far. Since these are single molecules with a single PK/PD and toxicity profile, there is a great opportunity to develop them as single therapeutics and streamline their development in combination therapies focused on companion diagnostics built around synthetic lethality discoveries in human cancers, e.g., kinome adaptation mediated by BRD4.