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Abrogation of HLA surface expression using CRISPR/Cas9 genome editing: a step toward universal T cell therapy

Jeewon Lee, Joong Hyuk Sheen, Okjae Lim, Yun Jung Lee, Jihye Ryu, Duckhyang Shin, Yu Young Kim, Munkyung Kim

2020Scientific Reports54 citationsDOIOpen Access PDF

Abstract

As recent advancements in the chimeric antigen receptor-T cells have revolutionized the way blood cancers are handled, potential benefits from producing off-the-shelf, standardized immune cells entail the need for development of allogeneic immune cell therapy. However, host rejection driven by HLA disparity in adoptively transferred allogeneic T cells remains a key obstacle to the universal donor T cell therapy. To evade donor HLA-mediated immune rejection, we attempted to eliminate T cell's HLA through the CRISPR/Cas9 gene editing system. First, we screened 60 gRNAs targeting B2M and multiple sets of gRNA each targeting α chains of HLA-II (DPA, DQA and DRA, respectively) using web-based design tools, and identified specific gRNA sequences highly efficient for target deletion without carrying off-target effects. Multiplex genome editing of primary human T cells achieved by the newly discovered gRNAs yielded HLA-I- or HLA-I/II-deficient T cells that were phenotypically unaltered and functionally intact. The overnight mixed lymphocyte reactions demonstrated the HLA-I-negative cells induced decreased production of IFN-γ and TNF-α in alloreactive T cells, and deficiency of HLA-I/II in T cells further dampened the inflammatory responses. Taken together, our approach will provide an efficacious pathway toward the universal donor cell generation by manipulating HLA expression in therapeutic T cells.

Topics & Concepts

CRISPRGenome editingHuman leukocyte antigenGuide RNABiologyCas9Immune systemT cellImmunologyCell therapyAntigenComputational biologyCellGeneGeneticsCAR-T cell therapy researchCRISPR and Genetic EngineeringVirus-based gene therapy research
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