Recombination activating genes (RAGs) are tightly regulated during lymphoid differentiation, and their mutations cause a spectrum of severe immunological disorders. Hematopoietic stem and progenitor cell (HSPC) transplantation is the treatment of choice but is limited by donor availability and toxicity. To overcome these issues, we developed gene editing strategies targeting a corrective sequence into the human RAG1 gene by homology-directed repair (HDR) and validated them by tailored two-dimensional, three-dimensional, and in vivo xenotransplant platforms to assess rescue of expression and function. Whereas integration into intron 1 of RAG1 achieved suboptimal correction, in-frame insertion into exon 2 drove physiologic human RAG1 expression and activity, allowing disruption of the dominant-negative effects of unrepaired hypomorphic alleles. Enhanced HDR-mediated gene editing enabled the correction of human RAG1 in HSPCs from patients with hypomorphic RAG1 mutations to overcome T and B cell differentiation blocks. Gene correction efficiency exceeded the minimal proportion of functional HSPCs required to rescue immunodeficiency in Rag1-/- mice, supporting the clinical translation of HSPC gene editing for the treatment of RAG1 deficiency.

Exonic knockout and knockin gene editing in hematopoietic stem and progenitor cells rescues RAG1 immunodeficiency / Castiello, M. C.; Brandas, C.; Ferrari, S.; Porcellini, S.; Sacchetti, N.; Canarutto, D.; Draghici, E.; Merelli, I.; Barcella, M.; Pelosi, G.; Vavassori, V.; Varesi, A.; Jacob, A.; Scala, S.; Ricci, L. B.; Paulis, M.; Strina, D.; Di Verniere, M.; Sergi, L. S.; Serafini, M.; Holland, S. M.; Bergerson, J. R. E.; De Ravin, S. S.; Malech, H. L.; Pala, F.; Bosticardo, M.; Brombin, C.; Cugnata, F.; Calzoni, E.; Crooks, G. M.; Notarangelo, L. D.; Genovese, P.; Naldini, L.; Villa, A.. - In: SCIENCE TRANSLATIONAL MEDICINE. - ISSN 1946-6234. - 16:733(2024). [Epub ahead of print] [10.1126/scitranslmed.adh8162]

Exonic knockout and knockin gene editing in hematopoietic stem and progenitor cells rescues RAG1 immunodeficiency

Ferrari S.;Sacchetti N.;Canarutto D.;Vavassori V.;Brombin C.;Cugnata F.;Naldini L.;
2024-01-01

Abstract

Recombination activating genes (RAGs) are tightly regulated during lymphoid differentiation, and their mutations cause a spectrum of severe immunological disorders. Hematopoietic stem and progenitor cell (HSPC) transplantation is the treatment of choice but is limited by donor availability and toxicity. To overcome these issues, we developed gene editing strategies targeting a corrective sequence into the human RAG1 gene by homology-directed repair (HDR) and validated them by tailored two-dimensional, three-dimensional, and in vivo xenotransplant platforms to assess rescue of expression and function. Whereas integration into intron 1 of RAG1 achieved suboptimal correction, in-frame insertion into exon 2 drove physiologic human RAG1 expression and activity, allowing disruption of the dominant-negative effects of unrepaired hypomorphic alleles. Enhanced HDR-mediated gene editing enabled the correction of human RAG1 in HSPCs from patients with hypomorphic RAG1 mutations to overcome T and B cell differentiation blocks. Gene correction efficiency exceeded the minimal proportion of functional HSPCs required to rescue immunodeficiency in Rag1-/- mice, supporting the clinical translation of HSPC gene editing for the treatment of RAG1 deficiency.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11768/170776
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