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. 2025 Dec 5.
doi: 10.1038/s41587-025-02915-2. Online ahead of print.

In vivo gene editing of human hematopoietic stem and progenitor cells using envelope-engineered virus-like particles

Vladimir V Botchkarev Jr #  1 Sean Harrington #  1 Matteo Stoppato  1 Alexander Justen  1 Casey Kimber  1 Anjali Kapuria  1 Keylie M Gibson  1 Chi-Shuen Chu  1 Yuanxin Xu  1 Kelsey Haugh  1 Ramya Ankala  1 Nathan Kipniss  1 Andre DeGroot  1 Emerson Moore  1 Rowena de Jesus  1 Funmi Adewale  1 Kathy Daniels  1 Samantha Crocker  1 Anna Liang  1 Shannon Joyce  1 Nicole Roberto  1 Pamela Angel  1 Derek Smith  1 Athena Wong  1 Nick Adler  1 Valeria Berlfein  1 Shirisha Amatya  1 Patricia Cruite  1 Shariq Usmani  1 Albert Ruzo  1 Benjamin Ferland  1 Sundeep Chandra  1 Edward J Rebar  1 Jagesh V Shah  1 Kyle Trudeau  1 Luca Biasco  2   3
Affiliations

In vivo gene editing of human hematopoietic stem and progenitor cells using envelope-engineered virus-like particles

Vladimir V Botchkarev Jr et al. Nat Biotechnol. .

Abstract

Engineered virus-like particles (VLPs) are a promising technology for in vivo gene editing of human hematopoietic stem and progenitor cells (HSPCs). Here we design and test two different VLP envelopes for human HSPC editing in vitro and in vivo. The first is an optimized version of the baboon envelope BaEVTR, which efficiently transduces human HSPCs in vitro. We show that the optimized BaEVTR VLP enables in vivo editing of β2 microglobulin in long-term human HSPCs (31% at 8 weeks after dosing) and editing of two hemoglobinopathy-relevant loci, BCL11A and HBG1/2 (26% and 7.5%, respectively, at 5 days after dosing), inducing fetal hemoglobin. Our second VLP design uses a CD133-targeted envelope designed to reduce the transduction of mature blood cells and achieves higher in vivo specificity for HSPCs compared to the optimized BaEVTR VLP. As avoiding delivery in filter organs such as the liver would enhance efficiency and safety, we also demonstrate that both VLPs avoid human hepatocytes in a humanized liver model.

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Conflict of interest statement

Competing interests: All authors are or have been employees of Sana Biotechnology.

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