Catalyst Biosciences, Inc. announced that it will host a research and development call on the Company’s systemic complement regulator programs on Monday, December 14, 2020 at 12:00 pm Eastern Time.
Members of Catalyst Biosciences’ management team will provide an overview of the Company’s complement programs, including disclosure of the Company’s first subcutaneously-dosed systemic complement development candidate. Catalyst, a Protease Medicines company, is leveraging its proprietary protease engineering platform to develop proteases that regulate the complement cascade and are applicable to a large number of diseases.
The call will also include a presentation by Ronald P. Taylor, Ph.D., Emeritus Professor of Biochemistry and Molecular Genetics, University of Virginia School of Medicine, who will provide a background on diseases associated with complement activation. Professor Taylor will be available to answer questions in the field of complement.
Ronald P. Taylor, Ph.D., received his BS in Chemistry at the City College of New York and Ph.D. in Physical Chemistry at Princeton University and completed his Postdoc in protein chemistry at the University of Minnesota. His research has focused on translational immunology, including diseases associated with complement activation, cancer immunotherapy, and new approaches to vaccine generation. He is the author of more than 210 publications.
About Catalyst Biosciences
Catalyst is a research and clinical development biopharmaceutical company focused on addressing unmet medical needs in rare hematologic and complement-mediated disorders. Our protease engineering platform has generated two late-stage clinical programs in hemophilia; a research program on engineering of subcutaneous (SQ) complement inhibitors; a discovery stage Factor IX gene therapy construct – CB 2679d-GT – for Hemophilia B, and a partnered preclinical development program with Biogen for dry age-related macular degeneration (AMD). The product candidates generated by our protease engineering platform have improved functionality and potency that allow for: SQ administration of recombinant coagulation factors and complement inhibitors; low-dose, high activity gene therapy constructs; and less frequently dosed intravitreal therapeutics.
Contact:
Ana Kapor
Catalyst Biosciences, Inc.
investors@catbio.com