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- Overview
- Cell therapy-focused deals
- Enter gene editing
- Freedom to operate
- Table 1 | Selected recent cell and gene therapy partnering deals
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In the ever-evolving landscape of biotechnology and pharmaceuticals, one sector has emerged as particularly promising in the quest to combat previously untreatable diseases: cell and gene therapy. Half a century after scientists proposed the idea of modifying defective genes to treat diseases with a genetic root, the approach is beginning to bear fruit.
To date, the United States Food and Drug Administration (FDA) has approved 31 cell and gene therapies, ten of which are targeting oncology indications. It has also approved multiple oligonucleotide-based drugs, while all eyes are currently on whether the agency will approve the first therapy developed using a gene-editing technology for sickle cell disease and beta thalassemia in December 2023.
Groundbreaking cell and gene therapy technologies have the potential to revolutionize medicine, offering new hope to patients facing previously insurmountable challenges and so have emerged as an attractive target for pharmaceutical companies. However, the journey from discovery to market is fraught with complexity, and therefore dealmaking could play a pivotal role in shaping the future of the field.
Many of the deals signed in the cell and gene therapy space involve cell therapies for cancer, and several deals in recent years have been penned for pharma companies to access next-generation cell therapy opportunities. For example, in August 2022, Roche signed a deal with Poseida Therapeutics to develop allogeneic CAR-T cell therapies for blood cancers including multiple myeloma, B cell lymphomas and other indications. Poseida will receive an upfront payment of $110 million, and if milestones are met Poseida could receive up to $6 billion, which makes this deal one of the most potentially valuable in the field in recent years. Also targeting multiple myeloma through a high-value deal, Arcellx and Kite Pharma joined forces in December 2022 to co-develop and co-commercialize Arcellx’s phase 2 cell therapy CART-ddBCMA (Table 1).
Big pharma Bristol Myers Squibb (BMS) also signed a couple of high-value oncology-focused deals earlier in 2022. In January 2022, BMS partnered with Century Therapeutics to use their induced pluripotent stem cell (iPSC)-based allogeneic cell therapy platforms to develop up to four iPSC-derived, natural killer cell and/or T cell programs to treat hematologic malignancies and solid tumors. BMS then expanded its relationship with Immatics to develop allogeneic TCR-T/CAR-T programs using Immatics’ gamma delta T cell-derived, adoptive cell therapy (ACT) platform, ACTallo.
Beyond cell therapies, some other notable partnering deals signed recently involved gene editing technologies, particularly those based on CRISPR-Cas9 systems. Since the publication of the pioneering research on programmable DNA cleavage by the Cas9 nuclease just over a decade ago, which won its inventors a Nobel Prize in 2020, such systems have been widely explored for inactivating genes by making targeted cuts, as well as for correcting specific mutations in an approach known as base editing.
With the first therapeutic based on CRISPR-Cas9 technology, developed by CRISPR Therapeutics and Vertex Pharmaceuticals, in line for FDA approval as a treatment for sickle cell disease and beta-thalassemia by the year end, it is possible that we will see more partnering deals to access gene-editing technologies. According to Cortellis Clinical Trials Intelligence, the eight leading target indications for gene editing are all oncology-related, but some of the most lucrative recent partnering deals have involved non-oncology indications.
The largest gene-editing partnership signed in 2023 is a collaboration between Novo Nordisk and gene-editing company Life Edit Therapeutics to develop base-editing therapies against certain therapeutic targets, which was penned in May.
The partnership involves the development of up to seven programs to target genetic and cardiometabolic diseases. Life Edit received an upfront cash payment and could receive development, regulatory, and commercial milestones of $335 million for each of the first two development programs. A further $250 million could be paid for the remaining five programs. Novo Nordisk will handle research and development costs and Life Edit could receive tiered royalties on potential future net sales of therapeutic products. Also included in the deal, Novo Nordisk secured an equity investment in Life Edit’s parent company ElevateBio.
Life Edit also partnered with Moderna earlier in the year to collaborate on the development of in vivo mRNA gene editing therapies to target genetic diseases. The deal will harness Moderna’s mRNA platform for the delivery of gene-editing technology.
Another big pharma company claiming its stake in the gene-editing pie is Eli Lilly. In October 2023, Lilly paid the gene-editing company Beam Therapeutics $200 million for its stake in base-editing candidates being developed for cardiovascular disease by Verve Therapeutics, which licensed gene-editing technology from Beam in 2019. It means Lilly will own opt-in rights to develop the cardiovascular disease-focused therapeutics. Under the terms of the deal, Eli Lilly will also pay Beam $50 million for an equity share and pay a further $350 million on the completion of future milestones.
One of the challenges for companies attempting to establish cell and gene therapy partnerships is to ensure that they have all the elements in place to have freedom to operate. In addition to the scientific challenges, issues around manufacturing and scale-up need to be addressed, often requiring access to the intellectual property estates of other organizations. Indeed, with CRISPR-Cas9 platforms, the challenge potential partners face is the fact that the United States and European Union have given primacy to different patent estates.
While the biggest headline-grabbing transactions have involved pharmaceutical companies getting access to promising therapeutic candidates, most of the deals are focused on tapping into the technologies that are essential to developing and manufacturing these new generations of therapies. Indeed, some of the transactions associated with manufacturing technologies can be very complex as pharma stack up the patents needed to have freedom to operate.
30 mag 2022 · Recent advances in cell-based therapeutics have been driven by the development of CRISPR and CRISPR-associated (Cas) proteins as programmable tools to engineer the human genome and epigenome...
Cell therapies present an entirely new paradigm in drug development. Within this class, immune cell therapies are among the most advanced, having already demonstrated definitive evidence of clinical benefits in cancer and infectious disease.
- Evan W. Weber, Marcela V. Maus, Crystal L. Mackall
- 2020
9 lug 2024 · Six CAR-T cell therapies are now approved for several types of lymphoma, multiple myeloma and acute lymphoblastic leukemia. Four of these therapies target CD19, which is found on the surface of healthy and cancerous B cells; two target another protein on the cells’ surface called B cell maturation agent.
6 dic 2023 · In early 2023, there were more than 100 different approved gene, cell, and RNA therapies throughout the world, with over 3,700 more in clinical and preclinical development. This review comprehensively captures the landscape for such advanced therapies, including the different genetic technologies used and diseases targeted in ...
24 set 2022 · The local immune microenvironment where cellular therapies are administered plays a key role in engraftment success. Various strategies have emerged to modulate local immune responses inclusive of drug-eluting biomaterials such as hydrogels (microgels), micelles, and graphene scaffolds.
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