Literature DB >> 28432129

Do Memory CD4 T Cells Keep Their Cell-Type Programming: Plasticity versus Fate Commitment? Complexities of Interpretation due to the Heterogeneity of Memory CD4 T Cells, Including T Follicular Helper Cells.

Shane Crotty1,2,3.   

Abstract

Plasticity is the ability of a cell type to convert to another cell type. There are multiple effector CD4 T-cell subtypes, including TH1, TH2, TH17, TH1*, CD4 CTL, TH9, and TFH cells. It is commonly thought that a CD4 T cell can readily show full plasticity-full conversion from one differentiated cell-and this propensity to plasticity is possessed by memory CD4 T cells. However, there remains no direct demonstration of in vivo-generated resting memory CD4 T-cell conversion to a different subtype on secondary antigen challenge in vivo in an intact animal at the single-cell level. What has been clearly shown is that CD4 T cells possess extraordinary capacity for phenotypic heterogeneity, but that is a distinct property from plasticity. Heterogeneity is diversity of the resting memory CD4 T-cell population, not conversion of a single differentiated cell into another subtype. Apparently, plasticity at the population level can be accomplished by either mechanism, as heterogeneity of CD4 T-cell subpopulations could affect large shifts in subtype distribution at the overall population level via differential exponential expansion and death.
Copyright © 2018 Cold Spring Harbor Laboratory Press; all rights reserved.

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Year:  2018        PMID: 28432129      PMCID: PMC5830898          DOI: 10.1101/cshperspect.a032102

Source DB:  PubMed          Journal:  Cold Spring Harb Perspect Biol        ISSN: 1943-0264            Impact factor:   10.005


  52 in total

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Journal:  Immunity       Date:  2014-10-16       Impact factor: 31.745

3.  Circulating precursor CCR7(lo)PD-1(hi) CXCR5⁺ CD4⁺ T cells indicate Tfh cell activity and promote antibody responses upon antigen reexposure.

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Journal:  Immunity       Date:  2013-10-17       Impact factor: 31.745

4.  Functional and epigenetic studies reveal multistep differentiation and plasticity of in vitro-generated and in vivo-derived follicular T helper cells.

Authors:  Kristina T Lu; Yuka Kanno; Jennifer L Cannons; Robin Handon; Paul Bible; Abdel G Elkahloun; Stacie M Anderson; Lai Wei; Hongwei Sun; John J O'Shea; Pamela L Schwartzberg
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6.  Cytokine-Independent Detection of Antigen-Specific Germinal Center T Follicular Helper Cells in Immunized Nonhuman Primates Using a Live Cell Activation-Induced Marker Technique.

Authors:  Colin Havenar-Daughton; Samantha M Reiss; Diane G Carnathan; Jennifer E Wu; Kayla Kendric; Alba Torrents de la Peña; Sudhir Pai Kasturi; Jennifer M Dan; Marcella Bothwell; Rogier W Sanders; Bali Pulendran; Guido Silvestri; Shane Crotty
Journal:  J Immunol       Date:  2016-06-22       Impact factor: 5.422

7.  Memory CD4 T cells emerge from effector T-cell progenitors.

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Journal:  Nature       Date:  2008-03-05       Impact factor: 49.962

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9.  Molecular mechanisms that control the expression and activity of Bcl-6 in TH1 cells to regulate flexibility with a TFH-like gene profile.

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Journal:  Nat Immunol       Date:  2012-03-11       Impact factor: 25.606

10.  Instability of the transcription factor Foxp3 leads to the generation of pathogenic memory T cells in vivo.

Authors:  Xuyu Zhou; Samantha L Bailey-Bucktrout; Lukas T Jeker; Cristina Penaranda; Marc Martínez-Llordella; Meredith Ashby; Maki Nakayama; Wendy Rosenthal; Jeffrey A Bluestone
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  25 in total

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Authors:  Ronald S Veazey
Journal:  Curr Immunol Rev       Date:  2019

Review 2.  Tfh cell response in influenza vaccines in humans: what is visible and what is invisible.

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Review 3.  T Follicular Helper Cell Biology: A Decade of Discovery and Diseases.

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Journal:  Immunity       Date:  2019-05-21       Impact factor: 31.745

4.  The Emergence and Functional Fitness of Memory CD4+ T Cells Require the Transcription Factor Thpok.

Authors:  Thomas Ciucci; Melanie S Vacchio; Yayi Gao; Francesco Tomassoni Ardori; Julian Candia; Monika Mehta; Yongmei Zhao; Bao Tran; Marion Pepper; Lino Tessarollo; Dorian B McGavern; Rémy Bosselut
Journal:  Immunity       Date:  2019-01-09       Impact factor: 31.745

5.  Simian Immunodeficiency Virus Infects Functionally Polarized Memory CD4 T Cells Equivalently In Vivo.

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Journal:  J Virol       Date:  2019-04-17       Impact factor: 5.103

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7.  Forsythiaside A improves Influenza A virus infection through TLR7 signaling pathway in the lungs of mice.

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8.  Transcriptome and TCR Repertoire Measurements of CXCR3+ T Follicular Helper Cells Within HIV-Infected Human Lymph Nodes.

Authors:  Chenfeng He; Michael J Malone; Ben S Wendel; Ke-Yue Ma; Daniel Del Alcazar; David B Weiner; Philip L De Jager; Perla M Del Río-Estrada; Yuria Ablanedo-Terrazas; Gustavo Reyes-Terán; Laura F Su; Ning Jiang
Journal:  Front Immunol       Date:  2022-05-06       Impact factor: 8.786

9.  Pathogen-associated T follicular helper cell plasticity is critical in anti-viral immunity.

Authors:  Han Feng; Xiaohong Zhao; Jenny Xie; Xue Bai; Weiwei Fu; Hairong Chen; Hong Tang; Xiaohu Wang; Chen Dong
Journal:  Sci China Life Sci       Date:  2022-03-02       Impact factor: 10.372

10.  Comparative analysis of activation induced marker (AIM) assays for sensitive identification of antigen-specific CD4 T cells.

Authors:  Samantha Reiss; Amy E Baxter; Kimberly M Cirelli; Jennifer M Dan; Antigoni Morou; Audrey Daigneault; Nathalie Brassard; Guido Silvestri; Jean-Pierre Routy; Colin Havenar-Daughton; Shane Crotty; Daniel E Kaufmann
Journal:  PLoS One       Date:  2017-10-24       Impact factor: 3.240
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