The hyperconnected 3D clique at the Ets1 locus is required for T cell function (Hi-C)
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ABSTRACT: The spatiotemporal control of gene-expression programs relies on selection and nuclear organization of enhancers. Despite mounting evidence on the formation of multi-enhancer hubs with extensive spatial connectivity, the functional importance of these architectural units remains elusive. Here, we generated a new mouse model and genetically perturbed a genomic locus harboring the Ets1 gene which is hyperconnected in T cells and has strong association with immune-mediated diseases. Although T cell development was intact, competence towards CD4+ T helper 1 specialization was lost in vitro and in vivo after genetic perturbation of the Ets1 locus. Extensive high-resolution molecular mapping of 3D genome organization revealed that the hyperconnectivity of the Ets1 locus controlled the expression level of Ets1 which was required for the Th1-specific genome topology. Our work illustrates the functional relevance of multi-enhancer hub formation in T cells.
ORGANISM(S): Mus musculus Homo sapiens
PROVIDER: GSE211176 | GEO | 2023/06/20
REPOSITORIES: GEO
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