Literature DB >> 30850393

Generation and persistence of human tissue-resident memory T cells in lung transplantation.

Mark E Snyder1,2, Michael O Finlayson3, Thomas J Connors2,4, Pranay Dogra2,5, Takashi Senda2,6, Erin Bush3, Dustin Carpenter2,6, Charles Marboe7, Luke Benvenuto1, Lori Shah1, Hilary Robbins1, Jaime L Hook1, Megan Sykes1,2,5, Frank D'Ovidio6, Matthew Bacchetta6, Joshua R Sonett6, David J Lederer1,8, Selim Arcasoy1,4, Peter A Sims3, Donna L Farber9,5,6.   

Abstract

Tissue-resident memory T cells (TRM) maintain immunity in diverse sites as determined in mouse models, whereas their establishment and role in human tissues have been difficult to assess. Here, we investigated human lung TRM generation, maintenance, and function in airway samples obtained longitudinally from human leukocyte antigen (HLA)-disparate lung transplant recipients, where donor and recipient T cells could be localized and tracked over time. Donor T cells persist specifically in the lungs (and not blood) of transplant recipients and express high levels of TRM signature markers including CD69, CD103, and CD49a, whereas lung-infiltrating recipient T cells gradually acquire TRM phenotypes over months in vivo. Single-cell transcriptome profiling of airway T cells reveals that donor T cells comprise two TRM-like subsets with varying levels of expression of TRM-associated genes, whereas recipient T cells comprised non-TRM and similar TRM-like subpopulations, suggesting de novo TRM generation. Transplant recipients exhibiting higher frequencies of persisting donor TRM experienced fewer adverse clinical events such as primary graft dysfunction and acute cellular rejection compared with recipients with low donor TRM persistence, suggesting that monitoring TRM dynamics could be clinically informative. Together, our results provide spatial and temporal insights into how human TRM develop, function, persist, and affect tissue integrity within the complexities of lung transplantation.
Copyright © 2019 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.

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Year:  2019        PMID: 30850393      PMCID: PMC6435356          DOI: 10.1126/sciimmunol.aav5581

Source DB:  PubMed          Journal:  Sci Immunol        ISSN: 2470-9468


  59 in total

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Authors:  Scott N Mueller; Laura K Mackay
Journal:  Nat Rev Immunol       Date:  2015-12-21       Impact factor: 53.106

2.  featureCounts: an efficient general purpose program for assigning sequence reads to genomic features.

Authors:  Yang Liao; Gordon K Smyth; Wei Shi
Journal:  Bioinformatics       Date:  2013-11-13       Impact factor: 6.937

3.  Immunopathogenesis of Primary Graft Dysfunction After Lung Transplantation.

Authors:  Ankit Bharat; Daniel Kreisel
Journal:  Ann Thorac Surg       Date:  2018-03       Impact factor: 4.330

Review 4.  Tissue-resident memory T cells.

Authors:  Jason M Schenkel; David Masopust
Journal:  Immunity       Date:  2014-12-06       Impact factor: 31.745

5.  Lung transplant acceptance is facilitated by early events in the graft and is associated with lymphoid neogenesis.

Authors:  W Li; A C Bribriesco; R G Nava; A A Brescia; A Ibricevic; J H Spahn; S L Brody; J H Ritter; A E Gelman; A S Krupnick; M J Miller; D Kreisel
Journal:  Mucosal Immunol       Date:  2012-05-02       Impact factor: 7.313

6.  Bidirectional intragraft alloreactivity drives the repopulation of human intestinal allografts and correlates with clinical outcome.

Authors:  Brittany Shonts; Sai-Ping Lau; Julien Zuber; Aleksandar Obradovic; Jianing Fu; Suxiao Yang; Marion Lambert; Shana Coley; Joshua Weiner; Joseph Thome; Susan DeWolf; Donna L Farber; Yufeng Shen; Sophie Caillat-Zucman; Govind Bhagat; Adam Griesemer; Mercedes Martinez; Tomoaki Kato; Megan Sykes
Journal:  Sci Immunol       Date:  2016-10-07

7.  Vaccine-generated lung tissue-resident memory T cells provide heterosubtypic protection to influenza infection.

Authors:  Kyra D Zens; Jun Kui Chen; Donna L Farber
Journal:  JCI Insight       Date:  2016-07-07

8.  Integrating single-cell transcriptomic data across different conditions, technologies, and species.

Authors:  Andrew Butler; Paul Hoffman; Peter Smibert; Efthymia Papalexi; Rahul Satija
Journal:  Nat Biotechnol       Date:  2018-04-02       Impact factor: 54.908

9.  Sensing and alarm function of resident memory CD8⁺ T cells.

Authors:  Jason M Schenkel; Kathryn A Fraser; Vaiva Vezys; David Masopust
Journal:  Nat Immunol       Date:  2013-03-31       Impact factor: 25.606

10.  PLATE-Seq for genome-wide regulatory network analysis of high-throughput screens.

Authors:  Erin C Bush; Forest Ray; Mariano J Alvarez; Ronald Realubit; Hai Li; Charles Karan; Andrea Califano; Peter A Sims
Journal:  Nat Commun       Date:  2017-07-24       Impact factor: 14.919
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  90 in total

Review 1.  Human lung tissue resident memory T cells in health and disease.

Authors:  Mark E Snyder; Donna L Farber
Journal:  Curr Opin Immunol       Date:  2019-06-29       Impact factor: 7.486

2.  Harnessing Expressed Single Nucleotide Variation and Single Cell RNA Sequencing To Define Immune Cell Chimerism in the Rejecting Kidney Transplant.

Authors:  Andrew F Malone; Haojia Wu; Catrina Fronick; Robert Fulton; Joseph P Gaut; Benjamin D Humphreys
Journal:  J Am Soc Nephrol       Date:  2020-07-15       Impact factor: 10.121

Review 3.  Resident Memory B Cells.

Authors:  S Rameeza Allie; Troy D Randall
Journal:  Viral Immunol       Date:  2020-02-05       Impact factor: 2.257

Review 4.  Clinical relevance of lung-restricted antibodies in lung transplantation.

Authors:  Mahzad Akbarpour; Qiang Wu; Xianpeng Liu; Haiying Sun; Emilia Lecuona; Rade Tomic; Sangeeta Bhorade; Thalachallour Mohanakumar; Ankit Bharat
Journal:  Hum Immunol       Date:  2019-05-08       Impact factor: 2.850

Review 5.  Tissue-Resident Memory T Cells in Mice and Humans: Towards a Quantitative Ecology.

Authors:  Sinead E Morris; Donna L Farber; Andrew J Yates
Journal:  J Immunol       Date:  2019-11-15       Impact factor: 5.422

6.  Human CD4+CD103+ cutaneous resident memory T cells are found in the circulation of healthy individuals.

Authors:  Maria M Klicznik; Peter A Morawski; Barbara Höllbacher; Suraj R Varkhande; Samantha J Motley; Leticia Kuri-Cervantes; Eileen Goodwin; Michael D Rosenblum; S Alice Long; Gabriele Brachtl; Thomas Duhen; Michael R Betts; Daniel J Campbell; Iris K Gratz
Journal:  Sci Immunol       Date:  2019-07-05

Review 7.  How Inflammation Blunts Innate Immunity in Aging.

Authors:  Emily L Goldberg; Albert C Shaw; Ruth R Montgomery
Journal:  Interdiscip Top Gerontol Geriatr       Date:  2020-04-09

Review 8.  Programmed T cell differentiation: Implications for transplantation.

Authors:  Rebecca L Crepeau; Mandy L Ford
Journal:  Cell Immunol       Date:  2020-03-29       Impact factor: 4.868

9.  Human endometrial MAIT cells are transiently tissue resident and respond to Neisseria gonorrhoeae.

Authors:  Jonna Bister; Ylva Crona Guterstam; Benedikt Strunz; Bogdan Dumitrescu; Karin Haij Bhattarai; Volkan Özenci; Mats Brännström; Martin A Ivarsson; Sebastian Gidlöf; Niklas K Björkström
Journal:  Mucosal Immunol       Date:  2020-08-05       Impact factor: 7.313

10.  Peripheral host T cells survive hematopoietic stem cell transplantation and promote graft-versus-host disease.

Authors:  Sherrie J Divito; Anders T Aasebø; Tiago R Matos; Pei-Chen Hsieh; Matthew Collin; Christopher P Elco; John T O'Malley; Espen S Bækkevold; Henrik Reims; Tobias Gedde-Dahl; Michael Hagerstrom; Jude Hilaire; John W Lian; Edgar L Milford; Geraldine S Pinkus; Vincent T Ho; Robert J Soiffer; Haesook T Kim; Martin C Mihm; Jerome Ritz; Indira Guleria; Corey S Cutler; Rachael A Clark; Frode L Jahnsen; Thomas S Kupper
Journal:  J Clin Invest       Date:  2020-09-01       Impact factor: 14.808
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