Orbital Therapeutics Inc. raised $270 million in a series A round to fund a big push into the next generation of mRNA-based therapies. The Cambridge, Mass.-based firm is building out a comprehensive RNA platform from which it will launch programs in oncology, autoimmune disease and indications involving protein replacement approaches.
Researchers from Beam Therapeutics Inc. presented the discovery and preclinical evaluation of an engineered stem cell antibody paired evasion (ESCAPE) strategy for antibody (Ab)-mediated autologous hematopoietic stem cell (HSC) therapy conditioning for the treatment of hemoglobinopathies.
Verve Therapeutics Inc.’s heart disease candidate, VERVE-101, is the latest gene editing-based therapy to hit a snag at the FDA, which issued a clinical hold, delaying the start of phase I testing in the U.S. News of the hold, which followed preclinical presentations over the weekend at the American Heart Association 2022 meeting, sent shares of Verve (NASDAQ:VERV) falling 30.5% to close Nov. 7 at $21.75.
A raft of potentially high-value drug development collaborations, most for gene and RNA therapies, led the first day of the 40th Annual J.P. Morgan Healthcare Conference Monday. Pfizer Inc. enlisted Beam Therapeutic Inc. to advance in vivo base editing programs for up to $1.35 billion, while Bayer AG tapped Mammoth Biosciences Inc.’s in vivo CRISPR systems expertise in a potential $1 billion-plus deal. Selecta Biosciences Inc. inked a new $1.1 billion partnership with Ginkgo Bioworks Inc. to develop next-generation gene therapy capsids, while Acadia Pharmaceuticals Inc. agreed to pay Stoke Therapeutics Inc. as much as $967 million to develop RNA-based medicines. Work on new mRNA vaccines and therapies is also proceeding, with both Pfizer and Biontech SE announcing new collaborations in the space.
The top 100 public biopharmaceutical companies with market caps greater than $1 billion, and excluding big pharma companies, spent a total of almost $12 billion on R&D in the first quarter of 2021, compared to $9.4 billion invested last year. A BioWorld analysis of the quarterly filings of this group found that the 24% year-over-year increase in spending was driven, in part, by companies involved in developing COVID-19 vaccines and therapeutics.
The top 100 public biopharmaceutical companies with market caps greater than $1 billion, and excluding big pharma companies, spent a total of almost $12 billion on R&D in the first quarter of 2021, compared to $9.4 billion invested last year.
Advances lately in the genome-editing space include Beam Therapeutics Inc. publication in The CRISPR Journal details of its work with inlaid base editors, which the firm is applying in the BEAM-102 program for sickle cell disease. IBEs’ predictable, shifted editing window lets researchers go after disease-causing mutations that canonical base editors cannot reach, Beam said, and do the job with high efficiency and few off-target effects on the genome. The hottest news due in the near-term future from the sector will spill from Intellia Therapeutics Inc., of Cambridge, Mass., which is due to roll out first-in-human data with a systemic CRISPR-based genome editing therapy, NTLA-2001, in hereditary transthyretin amyloidosis.
Gene therapy developer Beam Therapeutics Inc. has acquired drug delivery specialist Guide Therapeutics Inc. in a deal valued at up to $440 million, adding yet another piece of the integrated platform CEO John Evans told BioWorld the company is striving to build. Guide's lipid nanoparticle (LNP) screening technology could help medicines developed by Beam and its partners reach new targets beyond the liver, an increasingly important endeavor for gene therapy developers like Beam, seeking to maximize the breadth of their growing portfolios. Terms of the deal included $120 million up front, plus up to $320 million in stock-based technology and product success milestone payments. Shares in Beam (NASDAQ:BEAM) fell 12.6% to $96.48 on Feb. 23.
Using an adenine base editor, researchers at the U.S. NIH, Vanderbilt University Medical Center and Harvard University have succeeded in treating the premature aging syndrome Hutchinson-Guilford progeria syndrome (progeria) in mice, extending the animals’ lifespan and preventing much of the vascular damage that is typically the cause of death in children with progeria.
The CDC estimates that sickle cell disease affects well over 100,000 Americans, with the disease occurring most often in African Americans. September has been designated as National Sickle Cell Awareness month designed to focus attention on the ongoing research in this field and the need for new treatments.
