Please use this identifier to cite or link to this item: http://hdl.handle.net/123456789/1173
Title: NCoR1: Putting the Brakes on the Dendritic Cell Immune Tolerance
Authors: Basak, Soumen
Ahad, Abdul
Stevanin, Mathias
Smita, Shuchi
Mishra, Gyan Prakash
Gupta, Dheerendra
Waszak, Sebastian
Sarkar, Uday Aditya
Gupta, Bhawna
Acha-Orbea, Hans
Raghav, Sunil Kumar
Keywords: Immune Response; Immunology; Molecular Mechanism of Gene Regulation; Transcriptomics
Issue Date: Sep-2019
Publisher: Elsevier Inc.
Abstract: Understanding the mechanisms fine-tuning immunogenic versus tolerogenic balance in dendritic cells (DCs) is of high importance for therapeutic approaches. We found that NCoR1-mediated direct repression of the tolerogenic program in conventional DCs is essential for induction of an optimal immunogenic response. NCoR1 depletion upregulated a wide variety of tolerogenic genes in activated DCs, which consequently resulted in increased frequency of FoxP3+ regulatory T cells. Mechanistically, NCoR1 masks the PU.1-bound super-enhancers on major tolerogenic genes after DC activation that are subsequently bound by nuclear factor-κB. NCoR1 knockdown (KD) reduced RelA nuclear translocation and activity, whereas RelB was unaffected, providing activated DCs a tolerogenic advantage. Moreover, NCoR1DC-/- mice depicted enhanced Tregs in draining lymph nodes with increased disease burden upon bacterial and parasitic infections. Besides, adoptive transfer of activated NCoR1 KD DCs in infected animals showed a similar phenotype. Collectively, our results demonstrated NCoR1 as a promising target to control DC-mediated immune tolerance.
URI: http://hdl.handle.net/123456789/1173
Appears in Collections:Systems Immunology, Publications

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