Recursion Announces First Internally-Developed NCE Advanced to IND-Enabling Studies to Potentially Treat Clostridium difficile Colitis
Recursion Pharmaceuticals (Nasdaq: RXRX) announced the initiation of IND-enabling studies for REC-163964, a small molecule toxin inhibitor aimed at preventing recurrent C. difficile infections. This candidate is the first internally-discovered New Chemical Entity identified by the company’s ML-enabled Operating System. C. difficile infections cause significant morbidity in over 730,000 patients annually in the US and EU, with high recurrence rates. CEO Chris Gibson highlighted the importance of their growing data library for future drug developments.
- Initiation of IND-enabling studies for REC-163964, indicating progression in drug development.
- REC-163964 is the first internally-discovered New Chemical Entity by the company, showcasing its R&D capabilities.
- Company's ML-enabled Operating System has led to discovery of three structurally-differentiated candidates for C. difficile treatment.
- High recurrence rates of C. difficile infections indicate a substantial challenge in treatment effectiveness.
SALT LAKE CITY, May 25, 2021 /PRNewswire/ -- Recursion Pharmaceuticals, Inc. (Nasdaq : RXRX), a clinical-stage biotechnology company decoding biology by integrating technological innovations across biology, chemistry, automation, machine learning (ML), and engineering, today announced the company has initiated investigational new drug (IND)-enabling studies for REC-163964, a first-in-class, small molecule toxin inhibitor for possible prevention of recurrent Clostridium difficile (C. difficile) infections and potential prophylactic use in high-risk patients.
REC-163964 is the first internally-discovered New Chemical Entity (NCE) development candidate identified by the Recursion Operating System and advanced to IND-enabling studies. This lead represents one of three structurally-differentiated candidates discovered by Recursion's ML-enabled Operating System for the potential treatment of C. difficile.
"While we honed our operating system on known chemical entities, our substantial infrastructure buildout for NCE discovery over the past 18-24 months is bearing fruit. Our first internally-discovered NCE is on its way to the clinic to potentially join our four known chemical entities advancing to phase 2 studies," said Co-Founder & CEO Chris Gibson, Ph.D. "Over the coming years, I expect a growing portion of our scaling pipeline will be composed of NCEs, thanks to our rapidly expanding in-house library of biological and chemical data, and our medicinal chemistry, digital chemistry, predictive ADMET and inferential search capabilities. All of our scientists and I are excited by the more than 165 billion inferences we are exploring today to build a 21st century biopharma company."
About Clostridium difficile Colitis
C. difficile-induced colitis is a leading cause of antibiotic-related diarrhea and arises from the disruption of normal bacterial flora in the colon. Toxins A and B secreted by the bacterium, or TcdA and TcdB, are responsible for considerable morbidity, including severe diarrhea, colitis, toxic megacolon, sepsis and extended hospital stays, as well as potential mortality. The scientific literature indicates that more than 730,000 patients are diagnosed with C. difficile and 32,000 patients die as a result of it in the US and EU each year. Recurrence of disease occurs in 20
About Recursion
Recursion is a clinical-stage biotechnology company decoding biology by integrating technological innovations across biology, chemistry, automation, machine learning, and engineering. Our goal is to radically improve the lives of patients and industrialize drug discovery. Central to our mission is the Recursion Operating System, which combines an advanced infrastructure layer to generate what we believe is one of the world's largest and fastest-growing proprietary biological and chemical datasets. We combine that with the Recursion Map, a suite of custom software, algorithms, and machine learning tools that we use to explore foundational biology unconstrained by human bias and navigate to new biological insights. We are a biotechnology company scaling more like a technology company.
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