Literature DB >> 25385067

CD3bright signals on γδ T cells identify IL-17A-producing Vγ6Vδ1+ T cells.

C Paget1, M T Chow2, N A Gherardin3, P A Beavis4, A P Uldrich5, H Duret4, M Hassane6, F Souza-Fonseca-Guimaraes7, D A Mogilenko8, D Staumont-Sallé9, N K Escalante10, G R Hill11, P Neeson4, D S Ritchie4, D Dombrowicz8, T Mallevaey10, F Trottein6, G T Belz12, D I Godfrey13, M J Smyth14.   

Abstract

Interleukin-17A (IL-17A) is a pro-inflammatory cytokine that has an important role at mucosal sites in a wide range of immune responses including infection, allergy and auto-immunity. γδ T cells are recognized as IL-17 producers, but based on the level of CD3 expression, we now define the remarkable ability of a CD3(bright) γδ T-cell subset with an effector memory phenotype to rapidly produce IL-17A, but not interferon-γ. CD3(bright) γδ T cells uniformly express the canonical germline encoded Vγ6/Vδ1(+) T-cell receptor. They are widely distributed with a preferential representation in the lungs and skin are negatively impacted in the absence of retinoic acid receptor-related orphan receptor gammat expression or endogenous flora. This population responded rapidly to various stimuli in a mechanism involving IL-23 and NOD-like receptor family, pyrin domain containing 3 (NLRP3)-inflammasome-dependent IL-1β. Finally, we demonstrated that IL-17-producing CD3(bright) γδ T cells responded promptly and strongly to pneumococcal infection and during skin inflammation. Here, we propose a new way to specifically analyze IL-17-producing Vγ6/Vδ1(+) T cells based on the level of CD3 signals. Using this gating strategy, our data reinforce the crucial role of this γδ T-cell subset in respiratory and skin disorders.

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Year:  2014        PMID: 25385067     DOI: 10.1038/icb.2014.94

Source DB:  PubMed          Journal:  Immunol Cell Biol        ISSN: 0818-9641            Impact factor:   5.126


  66 in total

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Authors:  Katherine Kedzierska; Stephen J Turner; Peter C Doherty
Journal:  Proc Natl Acad Sci U S A       Date:  2004-03-22       Impact factor: 11.205

2.  Nasal vaccination with P6 outer membrane protein and alpha-galactosylceramide induces nontypeable Haemophilus influenzae-specific protective immunity associated with NKT cell activation and dendritic cell expansion in nasopharynx.

Authors:  Kenji Noda; Satoru Kodama; Shingo Umemoto; Nobuyuki Abe; Takashi Hirano; Masashi Suzuki
Journal:  Vaccine       Date:  2010-05-15       Impact factor: 3.641

3.  The adult T-cell receptor delta-chain is diverse and distinct from that of fetal thymocytes.

Authors:  J F Elliott; E P Rock; P A Patten; M M Davis; Y H Chien
Journal:  Nature       Date:  1988-02-18       Impact factor: 49.962

4.  IL-17 production is dominated by gammadelta T cells rather than CD4 T cells during Mycobacterium tuberculosis infection.

Authors:  Euan Lockhart; Angela M Green; JoAnne L Flynn
Journal:  J Immunol       Date:  2006-10-01       Impact factor: 5.422

Review 5.  Development and function of interleukin 17-producing γδ T cells.

Authors:  Thomas Korn; Franziska Petermann
Journal:  Ann N Y Acad Sci       Date:  2012-01-12       Impact factor: 5.691

Review 6.  Innate IL-17-producing cells: the sentinels of the immune system.

Authors:  Daniel J Cua; Cristina M Tato
Journal:  Nat Rev Immunol       Date:  2010-06-18       Impact factor: 53.106

7.  IMGT, the International ImMunoGeneTics database.

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Journal:  Nucleic Acids Res       Date:  1998-01-01       Impact factor: 16.971

8.  Compared TCR and CD3 epsilon expression on alpha beta and gamma delta T cells. Evidence for the association of two TCR heterodimers with three CD3 epsilon chains in the TCR/CD3 complex.

Authors:  G Thibault; P Bardos
Journal:  J Immunol       Date:  1995-04-15       Impact factor: 5.422

9.  Contribution of IL-17-producing gamma delta T cells to the efficacy of anticancer chemotherapy.

Authors:  Yuting Ma; Laetitia Aymeric; Clara Locher; Stephen R Mattarollo; Nicolas F Delahaye; Pablo Pereira; Laurent Boucontet; Lionel Apetoh; François Ghiringhelli; Noëlia Casares; Juan José Lasarte; Goro Matsuzaki; Koichi Ikuta; Bernard Ryffel; Kamel Benlagha; Antoine Tesnière; Nicolas Ibrahim; Julie Déchanet-Merville; Nathalie Chaput; Mark J Smyth; Guido Kroemer; Laurence Zitvogel
Journal:  J Exp Med       Date:  2011-03-07       Impact factor: 14.307

10.  The differentiation of human T(H)-17 cells requires transforming growth factor-beta and induction of the nuclear receptor RORgammat.

Authors:  Nicolas Manel; Derya Unutmaz; Dan R Littman
Journal:  Nat Immunol       Date:  2008-05-04       Impact factor: 25.606
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  38 in total

Review 1.  Interleukin (IL)-12 and IL-23 and Their Conflicting Roles in Cancer.

Authors:  Juming Yan; Mark J Smyth; Michele W L Teng
Journal:  Cold Spring Harb Perspect Biol       Date:  2018-07-02       Impact factor: 10.005

2.  Clonally expanded γδ T cells protect against Staphylococcus aureus skin reinfection.

Authors:  Carly A Dillen; Bret L Pinsker; Alina I Marusina; Alexander A Merleev; Orly N Farber; Haiyun Liu; Nathan K Archer; Da B Lee; Yu Wang; Roger V Ortines; Steven K Lee; Mark C Marchitto; Shuting S Cai; Alyssa G Ashbaugh; Larissa S May; Steven M Holland; Alexandra F Freeman; Loren G Miller; Michael R Yeaman; Scott I Simon; Joshua D Milner; Emanual Maverakis; Lloyd S Miller
Journal:  J Clin Invest       Date:  2018-02-05       Impact factor: 14.808

Review 3.  Lung-resident γδ T cells and their roles in lung diseases.

Authors:  Min Cheng; Shilian Hu
Journal:  Immunology       Date:  2017-06-20       Impact factor: 7.397

Review 4.  Homeostatic Immunity and the Microbiota.

Authors:  Yasmine Belkaid; Oliver J Harrison
Journal:  Immunity       Date:  2017-04-18       Impact factor: 31.745

5.  The majority of murine γδ T cells at the maternal-fetal interface in pregnancy produce IL-17.

Authors:  Gabriela V Pinget; Theresa M Corpuz; Jessica Stolp; Erin L Lousberg; Kerrilyn R Diener; Sarah A Robertson; Jonathan Sprent; Kylie E Webster
Journal:  Immunol Cell Biol       Date:  2016-05-31       Impact factor: 5.126

6.  Aire Inhibits the Generation of a Perinatal Population of Interleukin-17A-Producing γδ T Cells to Promote Immunologic Tolerance.

Authors:  Noriyuki Fujikado; Alexander O Mann; Kushagra Bansal; Kimberly R Romito; Elise M N Ferre; Sergio D Rosenzweig; Michail S Lionakis; Christophe Benoist; Diane Mathis
Journal:  Immunity       Date:  2016-11-15       Impact factor: 31.745

7.  γδ T cells producing interleukin-17A regulate adipose regulatory T cell homeostasis and thermogenesis.

Authors:  Ayano C Kohlgruber; Shani T Gal-Oz; Nelson M LaMarche; Moto Shimazaki; Danielle Duquette; Hui-Fern Koay; Hung N Nguyen; Amir I Mina; Tyler Paras; Ali Tavakkoli; Ulrich von Andrian; Adam P Uldrich; Dale I Godfrey; Alexander S Banks; Tal Shay; Michael B Brenner; Lydia Lynch
Journal:  Nat Immunol       Date:  2018-04-18       Impact factor: 25.606

8.  Alterations in Intestinal Microbiota Lead to Production of Interleukin 17 by Intrahepatic γδ T-Cell Receptor-Positive Cells and Pathogenesis of Cholestatic Liver Disease.

Authors:  Dana Tedesco; Manoj Thapa; Chui Yoke Chin; Yong Ge; Minghao Gong; Jing Li; Sanjeev Gumber; Patrick Speck; Elizabeth J Elrod; Eileen M Burd; William H Kitchens; Joseph F Magliocca; Andrew B Adams; David S Weiss; Mansour Mohamadzadeh; Arash Grakoui
Journal:  Gastroenterology       Date:  2018-02-15       Impact factor: 22.682

Review 9.  IL-17 in neonatal health and disease.

Authors:  Shelley M Lawrence; Jessica Lauren Ruoss; James L Wynn
Journal:  Am J Reprod Immunol       Date:  2017-12-15       Impact factor: 3.886

10.  Targeting IL-17A attenuates neonatal sepsis mortality induced by IL-18.

Authors:  James Lawrence Wynn; Chris S Wilson; Jacek Hawiger; Philip O Scumpia; Andrew F Marshall; Jin-Hua Liu; Irina Zharkikh; Hector R Wong; Patrick Lahni; John T Benjamin; Erin J Plosa; Jörn-Hendrik Weitkamp; Edward R Sherwood; Lyle L Moldawer; Ricardo Ungaro; Henry V Baker; M Cecilia Lopez; Steven J McElroy; Natacha Colliou; Mansour Mohamadzadeh; Daniel Jensen Moore
Journal:  Proc Natl Acad Sci U S A       Date:  2016-04-25       Impact factor: 11.205
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