| Literature DB >> 31875552 |
Liisa Andersen1, Alexandra Franziska Gülich1, Marlis Alteneder1, Teresa Preglej1, Maria Jonah Orola1, Narendra Dhele1, Valentina Stolz1, Alexandra Schebesta1, Patricia Hamminger1, Anastasiya Hladik2, Stefan Floess3, Thomas Krausgruber4, Thomas Faux5, Syed Bilal Ahmad Andrabi6, Jochen Huehn3, Sylvia Knapp7, Tim Sparwasser8, Christoph Bock9, Asta Laiho5, Laura L Elo5, Omid Rasool6, Riitta Lahesmaa6, Shinya Sakaguchi1, Wilfried Ellmeier10.
Abstract
Forkhead box protein P3+ (FOXP3+) regulatory T cells (Treg cells) play a key role in maintaining tolerance and immune homeostasis. Here, we report that a T cell-specific deletion of the transcription factor MAZR (also known as PATZ1) leads to an increased frequency of Treg cells, while enforced MAZR expression impairs Treg cell differentiation. Further, MAZR expression levels are progressively downregulated during thymic Treg cell development and during in-vitro-induced human Treg cell differentiation, suggesting that MAZR protein levels are critical for controlling Treg cell development. However, MAZR-deficient Treg cells show only minor transcriptional changes ex vivo, indicating that MAZR is not essential for establishing the transcriptional program of peripheral Treg cells. Finally, the loss of MAZR reduces the clinical score in dextran-sodium sulfate (DSS)-induced colitis, suggesting that MAZR activity in T cells controls the extent of intestinal inflammation. Together, these data indicate that MAZR is part of a Treg cell-intrinsic transcriptional network that modulates Treg cell development.Entities:
Keywords: DSS-induced colitis; FOXP3; MAZR; PATZ1; T(reg); regulatory T cells
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Year: 2019 PMID: 31875552 DOI: 10.1016/j.celrep.2019.11.089
Source DB: PubMed Journal: Cell Rep Impact factor: 9.423