Prime Medicine and Cimeio Therapeutics Announce Research Collaboration to Develop Prime Edited Shielded-Cell & Immunotherapy Pairs™ for Genetic Diseases, Acute Myeloid Leukemia and Myelodysplastic Syndrome

On June 22, 2023 Prime Medicine, Inc. (Nasdaq: PRME), a biotechnology company committed to delivering a new class of differentiated one-time curative genetic therapies, and Cimeio Therapeutics, a biotechnology company that is reinventing cell therapy through its leadership in the emerging field of epitope shielding, reported a research collaboration to combine their respective technologies, including Prime Medicine’s Prime Editing platform and Cimeio’s Shielded Cell and Immunotherapy Pairs (SCIP) platform (Press release, Cimeio Therapeutics, JUN 22, 2023, View Source [SID1234632841]).

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The goal of the research is to improve the safety and effectiveness of hematopoietic stem cell (HSC) transplants to treat genetic diseases, acute myeloid leukemia (AML), and myelodysplastic syndrome (MDS), as well as enable the in vivo selection of edited HSCs to potentially remove the need for transplantation entirely.

HSC transplant offers a potentially curative approach for many debilitating and life-threatening diseases, including malignancies such as AML and rare genetic diseases like Gaucher’s and Hurler’s, though its clinical utility is limited by the current need for myeloablative conditioning regimens and the risk of post-transplant progression of malignant disease. Cimeio’s SCIP platform combined with Prime Editing may significantly improve the accessibility, eligibility and outcomes for patients who could benefit from HSC transplant. These combined technologies may also enable selection of in vivo edited HSCs, which could allow for the treatment of genetic diseases without a transplant.

Under the terms of the agreement, Prime Medicine will develop a Prime Editor for Cimeio’s CD117 shielding variant that will then be evaluated by both companies. CD117 is a receptor tyrosine kinase expressed on normal HSCs and on leukemia cells, and therefore is an attractive target for an antibody-based conditioning therapy for patients needing a stem cell transplant, or for patients with AML or MDS needing new treatment options.

If the research collaboration is successful, the companies will grant exclusive license options to each other for their technology. Prime Medicine will receive an exclusive option to license Cimeio’s cell shielding technology for CD117-shielded HSC transplant, as well as in vivo editing of CD117-shielded HSCs, for genetic diseases, not including Sickle cell disease. Cimeio will receive an exclusive option to license Prime Medicine’s Prime Editing technology for its CD117-shielded allogeneic HSC product for use in AML and MDS, and, potentially, a second shielding protein for use in AML and MDS. If the companies exercise their exclusive license options, they will each be eligible to receive economics on net sales of licensed products. Specific financial terms were not disclosed.

Cimeio’s proprietary investigational immunotherapies are designed to selectively deplete diseased HSCs, while its novel CD117 protein variant, which can be introduced into HSCs using Prime Editing, has the potential to protect the healthy transplanted HSCs from depletion, allowing them to engraft while maintaining the normal function of the CD117 receptor. Because the edited HSCs are shielded, the diseased HSCs can be more gradually depleted, which could reduce toxicity and increase safety. The immunotherapies can also be administered post-transplant with the potential to boost engraftment or treat minimal residual disease.

Prime Editing is uniquely suited to introduce these novel protein variants into HSCs by virtue of its versatility, precision and efficiency, without causing double strand breaks and with minimal off target editing. Because Prime Editing can be multiplexed (i.e., multiple Prime Edits can be made with a single administration), rare genetic diseases such as beta thalassemia, immunodeficiencies and bone marrow failure syndromes may be corrected by Prime Editing at the same time as cell shielding, offering the possibility of autologous transplant for these patients without toxic conditioning.

"We believe Prime Editing is an incredibly powerful technology that could impact the care and treatment of a wide range of diseases. To fully exploit the potential of our technology, we are committed to collaborating with partners who can meaningfully expand our reach, accelerating our efforts to deliver important new medicines to patients worldwide," said Keith Gottesdiener, M.D., Chief Executive Officer of Prime Medicine. "Through this partnership, we are gaining access to a promising platform technology, which, when combined with Prime Editing, may allow many more patients to benefit from the potentially curative power of HSC transplant and, for the first time, make feasible in vivo treatment of many genetic diseases. We are delighted to collaborate with the Cimeio team, which includes experts in the fields of cell therapy, gene editing and HSC transplant, and look forward to working closely together to evaluate the synergistic potential of our technologies."

At the American Society of Hematology (ASH) (Free ASH Whitepaper) Annual Meeting in December 2022, Cimeio presented results from a preclinical study demonstrating proof-of-concept for its CD117-shielded cells. The data showed that its shielded cells expressing a genetically engineered variant of CD117 were fully functional in vitro and contributed to engraftment in vivo, similar to unmodified HSCs expressing the wild-type receptor. Mice transplanted with a mix of human HSCs expressing either wild-type CD117 or the Cimeio shielded CD117 variant showed a selective depletion of wild-type CD117 cells following treatment with Cimeio’s antibody directed against wild-type CD117, while those cells expressing the shielded CD117 variant were spared.

"Our recently disclosed data continues to show that our unique shielding technology and paired immunotherapies have the potential to deliver transformative therapies for patients with many types of diseases," said Thomas Fuchs, Chief Executive Officer of Cimeio Therapeutics. "Through this collaboration, we are bringing together industry leading protein engineering and genome editing, with the potential to deliver safer, curative therapies for patients. Our aim is to eliminate the need for toxic chemotherapies and radiation, and enable new therapeutic approaches post-transplant. Our goal is to reinvent HSC transplant as a more effective and practical option for many more patients facing debilitating and fatal diseases. We look forward to partnering with the extremely talented team at Prime Medicine to advance our novel CD117 program."