Literature DB >> 33488615

Targeted De-Methylation of the FOXP3-TSDR Is Sufficient to Induce Physiological FOXP3 Expression but Not a Functional Treg Phenotype.

Christopher Kressler1,2, Gilles Gasparoni3, Karl Nordström3, Dania Hamo1,2, Abdulrahman Salhab3, Christoforos Dimitropoulos2, Sascha Tierling3, Petra Reinke1,4, Hans-Dieter Volk1,4, Jörn Walter3, Alf Hamann2, Julia K Polansky1,2,4.   

Abstract

CD4+ regulatory T cells (Tregs) are key mediators of immunological tolerance and promising effector cells for immuno-suppressive adoptive cellular therapy to fight autoimmunity and chronic inflammation. Their functional stability is critical for their clinical utility and has been correlated to the demethylated state of the TSDR/CNS2 enhancer element in the Treg lineage transcription factor FOXP3. However, proof for a causal contribution of the TSDR de-methylation to FOXP3 stability and Treg induction is so far lacking. We here established a powerful transient-transfection CRISPR-Cas9-based epigenetic editing method for the selective de-methylation of the TSDR within the endogenous chromatin environment of a living cell. The induced de-methylated state was stable over weeks in clonal T cell proliferation cultures even after expression of the editing complex had ceased. Epigenetic editing of the TSDR resulted in FOXP3 expression, even in its physiological isoform distribution, proving a causal role for the de-methylated TSDR in FOXP3 regulation. However, successful FOXP3 induction was not associated with a switch towards a functional Treg phenotype, in contrast to what has been reported from FOXP3 overexpression approaches. Thus, TSDR de-methylation is required, but not sufficient for a stable Treg phenotype induction. Therefore, targeted demethylation of the TSDR may be a critical addition to published in vitro Treg induction protocols which so far lack FOXP3 stability.
Copyright © 2021 Kressler, Gasparoni, Nordström, Hamo, Salhab, Dimitropoulos, Tierling, Reinke, Volk, Walter, Hamann and Polansky.

Entities:  

Keywords:  CRISPR-Cas9-based tool; T cell differentiation; adoptive T cell therapies; epigenetic editing; gene regulation; regulatory T cells

Year:  2021        PMID: 33488615      PMCID: PMC7817622          DOI: 10.3389/fimmu.2020.609891

Source DB:  PubMed          Journal:  Front Immunol        ISSN: 1664-3224            Impact factor:   7.561


  65 in total

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