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Optimized CRISPR-mediated gene knockin reveals FOXP3-independent maintenance of human Treg identity

Avery J. Lam, David Lin, Jana Gillies, Prakruti Uday, Anne M. Pesenacker, Michael S. Kobor, Megan K. Levings

2021Cell Reports52 citationsDOIOpen Access PDF

Abstract

Regulatory T cell (Treg) therapy is a promising curative approach for a variety of immune-mediated conditions. CRISPR-based genome editing allows precise insertion of transgenes through homology-directed repair, but its use in human Tregs has been limited. We report an optimized protocol for CRISPR-mediated gene knockin in human Tregs with high-yield expansion. To establish a benchmark of human Treg dysfunction, we target the master transcription factor FOXP3 in naive and memory Tregs. Although FOXP3-ablated Tregs upregulate cytokine expression, effects on suppressive capacity in vitro manifest slowly and primarily in memory Tregs. Moreover, FOXP3-ablated Tregs retain their characteristic protein, transcriptional, and DNA methylation profile. Instead, FOXP3 maintains DNA methylation at regions enriched for AP-1 binding sites. Thus, although FOXP3 is important for human Treg development, it has a limited role in maintaining mature Treg identity. Optimized gene knockin with human Tregs will enable mechanistic studies and the development of tailored, next-generation Treg cell therapies.

Topics & Concepts

FOXP3BiologyCRISPRGenome editingTranscription factorTransgeneGeneDNA methylationImmune systemImmunologyGeneticsComputational biologyGene expressionImmune Cell Function and InteractionT-cell and B-cell ImmunologyCRISPR and Genetic Engineering
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