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Epitope editing enables targeted immunotherapy of acute myeloid leukaemia

Nature. 2023-09; 
Gabriele Casirati, Andrea Cosentino, Adele Mucci, Mohammed Salah Mahmoud, Iratxe Ugarte Zabala, Jing Zeng, Scott B Ficarro, Denise Klatt, Christian Brendel, Alessandro Rambaldi, Jerome Ritz , Jarrod A Marto, Danilo Pellin, Daniel E Bauer, Scott A Armstrong, Pietro Genovese
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Combinatorial DNA Libraries We designed a combinatorial plasmid library in which the human or the mouse codons were randomly selected at each of 16 positions (Asn354, Ser356, Asp358, Gln363, Glu366, Gln378, Thr384, Arg387, Lys388, Lys395, Asp398, Asn399, Asn408, His411, Gln412, His419) within FLT3 ECD4 (GenScript). Get A Quote

摘要

Despite the considerable efficacy observed when targeting a dispensable lineage antigen, such as CD19 in B cell acute lymphoblastic leukaemia1,2, the broader applicability of adoptive immunotherapies is hampered by the absence of tumour-restricted antigens3-5. Acute myeloid leukaemia immunotherapies target genes expressed by haematopoietic stem/progenitor cells (HSPCs) or differentiated myeloid cells, resulting in intolerable on-target/off-tumour toxicity. Here we show that epitope engineering of donor HSPCs used for bone marrow transplantation endows haematopoietic lineages with selective resistance to chimeric antigen receptor (CAR) T cells or monoclonal antibodies, without affecting protein function or regul... More

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