Literature DB >> 33029007

A STAT3 palmitoylation cycle promotes TH17 differentiation and colitis.

Mingming Zhang1,2, Lixing Zhou3, Yuejie Xu4, Min Yang2, Yilai Xu2, Garrison Paul Komaniecki2, Tatsiana Kosciuk2, Xiao Chen2, Xuan Lu2, Xiaoping Zou4, Maurine E Linder5, Hening Lin6,7.   

Abstract

Cysteine palmitoylation (S-palmitoylation) is a reversible post-translational modification that is installed by the DHHC family of palmitoyltransferases and is reversed by several acyl protein thioesterases1,2. Although thousands of human proteins are known to undergo S-palmitoylation, how this modification is regulated to modulate specific biological functions is poorly understood. Here we report that the key T helper 17 (TH17) cell differentiation stimulator, STAT33,4, is subject to reversible S-palmitoylation on cysteine 108. DHHC7 palmitoylates STAT3 and promotes its membrane recruitment and phosphorylation. Acyl protein thioesterase 2 (APT2, also known as LYPLA2) depalmitoylates phosphorylated STAT3 (p-STAT3) and enables it to translocate to the nucleus. This palmitoylation-depalmitoylation cycle enhances STAT3 activation and promotes TH17 cell differentiation; perturbation of either palmitoylation or depalmitoylation negatively affects TH17 cell differentiation. Overactivation of TH17 cells is associated with several inflammatory diseases, including inflammatory bowel disease (IBD). In a mouse model, pharmacological inhibition of APT2 or knockout of Zdhhc7-which encodes DHHC7-relieves the symptoms of IBD. Our study reveals not only a potential therapeutic strategy for the treatment of IBD but also a model through which S-palmitoylation regulates cell signalling, which might be broadly applicable for understanding the signalling functions of numerous S-palmitoylation events.

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Year:  2020        PMID: 33029007      PMCID: PMC7874492          DOI: 10.1038/s41586-020-2799-2

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  29 in total

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Authors:  Daniel E Johnson; Rachel A O'Keefe; Jennifer R Grandis
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2.  Faecalibacterium prausnitzii Produces Butyrate to Maintain Th17/Treg Balance and to Ameliorate Colorectal Colitis by Inhibiting Histone Deacetylase 1.

Authors:  Lixing Zhou; Mingming Zhang; Yuming Wang; Robert Gregory Dorfman; Hang Liu; Ting Yu; Xiaotian Chen; Dehua Tang; Lei Xu; Yuyao Yin; Yida Pan; Qian Zhou; Yihua Zhou; Chenggong Yu
Journal:  Inflamm Bowel Dis       Date:  2018-08-16       Impact factor: 5.325

3.  Transforming growth factor-beta induces development of the T(H)17 lineage.

Authors:  Paul R Mangan; Laurie E Harrington; Darrell B O'Quinn; Whitney S Helms; Daniel C Bullard; Charles O Elson; Robin D Hatton; Sharon M Wahl; Trenton R Schoeb; Casey T Weaver
Journal:  Nature       Date:  2006-04-30       Impact factor: 49.962

4.  Protein Lipidation: Occurrence, Mechanisms, Biological Functions, and Enabling Technologies.

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Journal:  Chem Rev       Date:  2018-01-02       Impact factor: 60.622

Review 5.  Novel Targeted Therapies for Inflammatory Bowel Disease.

Authors:  Mehmet Coskun; Severine Vermeire; Ole Haagen Nielsen
Journal:  Trends Pharmacol Sci       Date:  2016-12-01       Impact factor: 14.819

6.  Small-molecule inhibition of APT1 affects Ras localization and signaling.

Authors:  Frank J Dekker; Oliver Rocks; Nachiket Vartak; Sascha Menninger; Christian Hedberg; Rengarajan Balamurugan; Stefan Wetzel; Steffen Renner; Marc Gerauer; Beate Schölermann; Marion Rusch; John W Kramer; Daniel Rauh; Geoffrey W Coates; Luc Brunsveld; Philippe I H Bastiaens; Herbert Waldmann
Journal:  Nat Chem Biol       Date:  2010-04-25       Impact factor: 15.040

7.  Mechanism and function of DHHC S-acyltransferases.

Authors:  Maurine E Linder; Benjamin C Jennings
Journal:  Biochem Soc Trans       Date:  2013-02-01       Impact factor: 5.407

8.  Microbiotas from Humans with Inflammatory Bowel Disease Alter the Balance of Gut Th17 and RORγt+ Regulatory T Cells and Exacerbate Colitis in Mice.

Authors:  Graham J Britton; Eduardo J Contijoch; Ilaria Mogno; Olivia H Vennaro; Sean R Llewellyn; Ruby Ng; Zhihua Li; Arthur Mortha; Miriam Merad; Anuk Das; Dirk Gevers; Dermot P B McGovern; Namita Singh; Jonathan Braun; Jonathan P Jacobs; Jose C Clemente; Ari Grinspan; Bruce E Sands; Jean-Frederic Colombel; Marla C Dubinsky; Jeremiah J Faith
Journal:  Immunity       Date:  2019-01-15       Impact factor: 43.474

9.  SIRT2 and lysine fatty acylation regulate the transforming activity of K-Ras4a.

Authors:  Hui Jing; Xiaoyu Zhang; Stephanie A Wisner; Xiao Chen; Nicole A Spiegelman; Maurine E Linder; Hening Lin
Journal:  Elife       Date:  2017-12-14       Impact factor: 8.140

10.  Fatty acids and cancer-amplified ZDHHC19 promote STAT3 activation through S-palmitoylation.

Authors:  Jixiao Niu; Yang Sun; Baoen Chen; Baohui Zheng; Gopala K Jarugumilli; Sarah R Walker; Aaron N Hata; Mari Mino-Kenudson; David A Frank; Xu Wu
Journal:  Nature       Date:  2019-08-28       Impact factor: 49.962
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  27 in total

Review 1.  The JAK/STAT signaling pathway: from bench to clinic.

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Journal:  Signal Transduct Target Ther       Date:  2021-11-26

Review 2.  Inhibitors of DHHC family proteins.

Authors:  Tong Lan; Clémence Delalande; Bryan C Dickinson
Journal:  Curr Opin Chem Biol       Date:  2021-08-28       Impact factor: 8.822

3.  Verapamil inhibited the development of ureteral stricture by blocking CaMK II-mediated STAT3 and Smad3/JunD pathways.

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Review 4.  New insights into the role of the Golgi apparatus in the pathogenesis and therapeutics of human diseases.

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5.  Morin, the PPARγ agonist, inhibits Th17 differentiation by limiting fatty acid synthesis in collagen-induced arthritis.

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6.  LAMC1-mediated preadipocytes differentiation promoted peritoneum pre-metastatic niche formation and gastric cancer metastasis.

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Journal:  Int J Biol Sci       Date:  2022-04-24       Impact factor: 10.750

Review 7.  Protein cysteine palmitoylation in immunity and inflammation.

Authors:  Hening Lin
Journal:  FEBS J       Date:  2021-02-12       Impact factor: 5.542

8.  A palmitoylation code controls PI4KIIIα complex formation and PI(4,5)P2 homeostasis at the plasma membrane.

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Journal:  J Cell Sci       Date:  2021-10-22       Impact factor: 5.235

Review 9.  A Not-So-Ancient Grease History: Click Chemistry and Protein Lipid Modifications.

Authors:  Kiall F Suazo; Keun-Young Park; Mark D Distefano
Journal:  Chem Rev       Date:  2021-04-06       Impact factor: 72.087

Review 10.  From Science to Success? Targeting Tyrosine Kinase 2 in Spondyloarthritis and Related Chronic Inflammatory Diseases.

Authors:  Dominika Hromadová; Dirk Elewaut; Robert D Inman; Birgit Strobl; Eric Gracey
Journal:  Front Genet       Date:  2021-07-05       Impact factor: 4.599
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