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Literature DB >> 33226342

Combined transient ablation and single-cell RNA-sequencing reveals the development of medullary thymic epithelial cells.

Kristen L Wells¹, Corey N Miller^2,3, Andreas R Gschwind¹, Wu Wei⁴, Jonah D Phipps^2,3, Mark S Anderson^2,3, Lars M Steinmetz^1,4,5.

Abstract

Medullary thymic epithelial cells (mTECs) play a critical role in central immune tolerance by mediating negative selection of autoreactive T cells through the collective expression of the peripheral self-antigen compartment, including tissue-specific antigens (TSAs). Recent work has shown that gene-expression patterns within the mTEC compartment are heterogenous and include multiple differentiated cell states. To further define mTEC development and medullary epithelial lineage relationships, we combined lineage tracing and recovery from transient in vivo mTEC ablation with single-cell RNA-sequencing in Mus musculus. The combination of bioinformatic and experimental approaches revealed a non-stem transit-amplifying population of cycling mTECs that preceded Aire expression. We propose a branching model of mTEC development wherein a heterogeneous pool of transit-amplifying cells gives rise to Aire- and Ccl21a-expressing mTEC subsets. We further use experimental techniques to show that within the Aire-expressing developmental branch, TSA expression peaked as Aire expression decreased, implying Aire expression must be established before TSA expression can occur. Collectively, these data provide a roadmap of mTEC development and demonstrate the power of combinatorial approaches leveraging both in vivo models and high-dimensional datasets.

Entities: Chemical Disease Gene Species

Keywords: genetics; genomics; immune system; immunology; inflammation; medullary thymic epithelial cell; mouse; single-cell transcriptomics

Mesh：

Year: 2020 PMID： 33226342 PMCID： PMC7771965 DOI： 10.7554/eLife.60188

Source DB: PubMed Journal: Elife ISSN： 2050-084X Impact factor: 8.140

67 in total

1. Developmental kinetics, turnover, and stimulatory capacity of thymic epithelial cells.

Authors: Daniel H D Gray; Natalie Seach; Tomoo Ueno; Morag K Milton; Adrian Liston; Andrew M Lew; Christopher C Goodnow; Richard L Boyd
Journal: Blood Date: 2006-08-08 Impact factor: 22.113

2. Multilineage potential and self-renewal define an epithelial progenitor cell population in the adult thymus.

Authors: Kahlia Wong; Natalie L Lister; Marco Barsanti; Joanna M C Lim; Maree V Hammett; Danika M Khong; Christopher Siatskas; Daniel H D Gray; Richard L Boyd; Ann P Chidgey
Journal: Cell Rep Date: 2014-08-14 Impact factor: 9.423

3. DNA breaks and chromatin structural changes enhance the transcription of autoimmune regulator target genes.

Authors: Mithu Guha; Mario Saare; Julia Maslovskaja; Kai Kisand; Ingrid Liiv; Uku Haljasorg; Tõnis Tasa; Andres Metspalu; Lili Milani; Pärt Peterson
Journal: J Biol Chem Date: 2017-02-27 Impact factor: 5.157

4. IRF7-dependent IFN-β production in response to RANKL promotes medullary thymic epithelial cell development.

Authors: Dennis C Otero; Darren P Baker; Michael David
Journal: J Immunol Date: 2013-02-25 Impact factor: 5.422

5. Computational assignment of cell-cycle stage from single-cell transcriptome data.

Authors: Antonio Scialdone; Kedar N Natarajan; Luis R Saraiva; Valentina Proserpio; Sarah A Teichmann; Oliver Stegle; John C Marioni; Florian Buettner
Journal: Methods Date: 2015-07-02 Impact factor: 3.608

6. A promoter-level mammalian expression atlas.

Authors: Alistair R R Forrest; Hideya Kawaji; Michael Rehli; J Kenneth Baillie; Michiel J L de Hoon; Vanja Haberle; Timo Lassmann; Ivan V Kulakovskiy; Marina Lizio; Masayoshi Itoh; Robin Andersson; Christopher J Mungall; Terrence F Meehan; Sebastian Schmeier; Nicolas Bertin; Mette Jørgensen; Emmanuel Dimont; Erik Arner; Christian Schmidl; Ulf Schaefer; Yulia A Medvedeva; Charles Plessy; Morana Vitezic; Jessica Severin; Colin A Semple; Yuri Ishizu; Robert S Young; Margherita Francescatto; Intikhab Alam; Davide Albanese; Gabriel M Altschuler; Takahiro Arakawa; John A C Archer; Peter Arner; Magda Babina; Sarah Rennie; Piotr J Balwierz; Anthony G Beckhouse; Swati Pradhan-Bhatt; Judith A Blake; Antje Blumenthal; Beatrice Bodega; Alessandro Bonetti; James Briggs; Frank Brombacher; A Maxwell Burroughs; Andrea Califano; Carlo V Cannistraci; Daniel Carbajo; Yun Chen; Marco Chierici; Yari Ciani; Hans C Clevers; Emiliano Dalla; Carrie A Davis; Michael Detmar; Alexander D Diehl; Taeko Dohi; Finn Drabløs; Albert S B Edge; Matthias Edinger; Karl Ekwall; Mitsuhiro Endoh; Hideki Enomoto; Michela Fagiolini; Lynsey Fairbairn; Hai Fang; Mary C Farach-Carson; Geoffrey J Faulkner; Alexander V Favorov; Malcolm E Fisher; Martin C Frith; Rie Fujita; Shiro Fukuda; Cesare Furlanello; Masaaki Furino; Jun-ichi Furusawa; Teunis B Geijtenbeek; Andrew P Gibson; Thomas Gingeras; Daniel Goldowitz; Julian Gough; Sven Guhl; Reto Guler; Stefano Gustincich; Thomas J Ha; Masahide Hamaguchi; Mitsuko Hara; Matthias Harbers; Jayson Harshbarger; Akira Hasegawa; Yuki Hasegawa; Takehiro Hashimoto; Meenhard Herlyn; Kelly J Hitchens; Shannan J Ho Sui; Oliver M Hofmann; Ilka Hoof; Furni Hori; Lukasz Huminiecki; Kei Iida; Tomokatsu Ikawa; Boris R Jankovic; Hui Jia; Anagha Joshi; Giuseppe Jurman; Bogumil Kaczkowski; Chieko Kai; Kaoru Kaida; Ai Kaiho; Kazuhiro Kajiyama; Mutsumi Kanamori-Katayama; Artem S Kasianov; Takeya Kasukawa; Shintaro Katayama; Sachi Kato; Shuji Kawaguchi; Hiroshi Kawamoto; Yuki I Kawamura; Tsugumi Kawashima; Judith S Kempfle; Tony J Kenna; Juha Kere; Levon M Khachigian; Toshio Kitamura; S Peter Klinken; Alan J Knox; Miki Kojima; Soichi Kojima; Naoto Kondo; Haruhiko Koseki; Shigeo Koyasu; Sarah Krampitz; Atsutaka Kubosaki; Andrew T Kwon; Jeroen F J Laros; Weonju Lee; Andreas Lennartsson; Kang Li; Berit Lilje; Leonard Lipovich; Alan Mackay-Sim; Ri-ichiroh Manabe; Jessica C Mar; Benoit Marchand; Anthony Mathelier; Niklas Mejhert; Alison Meynert; Yosuke Mizuno; David A de Lima Morais; Hiromasa Morikawa; Mitsuru Morimoto; Kazuyo Moro; Efthymios Motakis; Hozumi Motohashi; Christine L Mummery; Mitsuyoshi Murata; Sayaka Nagao-Sato; Yutaka Nakachi; Fumio Nakahara; Toshiyuki Nakamura; Yukio Nakamura; Kenichi Nakazato; Erik van Nimwegen; Noriko Ninomiya; Hiromi Nishiyori; Shohei Noma; Shohei Noma; Tadasuke Noazaki; Soichi Ogishima; Naganari Ohkura; Hiroko Ohimiya; Hiroshi Ohno; Mitsuhiro Ohshima; Mariko Okada-Hatakeyama; Yasushi Okazaki; Valerio Orlando; Dmitry A Ovchinnikov; Arnab Pain; Robert Passier; Margaret Patrikakis; Helena Persson; Silvano Piazza; James G D Prendergast; Owen J L Rackham; Jordan A Ramilowski; Mamoon Rashid; Timothy Ravasi; Patrizia Rizzu; Marco Roncador; Sugata Roy; Morten B Rye; Eri Saijyo; Antti Sajantila; Akiko Saka; Shimon Sakaguchi; Mizuho Sakai; Hiroki Sato; Suzana Savvi; Alka Saxena; Claudio Schneider; Erik A Schultes; Gundula G Schulze-Tanzil; Anita Schwegmann; Thierry Sengstag; Guojun Sheng; Hisashi Shimoji; Yishai Shimoni; Jay W Shin; Christophe Simon; Daisuke Sugiyama; Takaai Sugiyama; Masanori Suzuki; Naoko Suzuki; Rolf K Swoboda; Peter A C 't Hoen; Michihira Tagami; Naoko Takahashi; Jun Takai; Hiroshi Tanaka; Hideki Tatsukawa; Zuotian Tatum; Mark Thompson; Hiroo Toyodo; Tetsuro Toyoda; Elvind Valen; Marc van de Wetering; Linda M van den Berg; Roberto Verado; Dipti Vijayan; Ilya E Vorontsov; Wyeth W Wasserman; Shoko Watanabe; Christine A Wells; Louise N Winteringham; Ernst Wolvetang; Emily J Wood; Yoko Yamaguchi; Masayuki Yamamoto; Misako Yoneda; Yohei Yonekura; Shigehiro Yoshida; Susan E Zabierowski; Peter G Zhang; Xiaobei Zhao; Silvia Zucchelli; Kim M Summers; Harukazu Suzuki; Carsten O Daub; Jun Kawai; Peter Heutink; Winston Hide; Tom C Freeman; Boris Lenhard; Vladimir B Bajic; Martin S Taylor; Vsevolod J Makeev; Albin Sandelin; David A Hume; Piero Carninci; Yoshihide Hayashizaki
Journal: Nature Date: 2014-03-27 Impact factor: 49.962

7. Post-Aire maturation of thymic medullary epithelial cells involves selective expression of keratinocyte-specific autoantigens.

Authors: Xiaoping Wang; Martti Laan; Rudolf Bichele; Kai Kisand; Hamish S Scott; Pärt Peterson
Journal: Front Immunol Date: 2012-03 Impact factor: 7.561

8. Essential role of CCL21 in establishment of central self-tolerance in T cells.

Authors: Mina Kozai; Yuki Kubo; Tomoya Katakai; Hiroyuki Kondo; Hiroshi Kiyonari; Karin Schaeuble; Sanjiv A Luther; Naozumi Ishimaru; Izumi Ohigashi; Yousuke Takahama
Journal: J Exp Med Date: 2017-06-13 Impact factor: 14.307

9. Slingshot: cell lineage and pseudotime inference for single-cell transcriptomics.

Authors: Kelly Street; Davide Risso; Russell B Fletcher; Diya Das; John Ngai; Nir Yosef; Elizabeth Purdom; Sandrine Dudoit
Journal: BMC Genomics Date: 2018-06-19 Impact factor: 3.969

Review 10. Thymic Epithelial Cells Contribute to Thymopoiesis and T Cell Development.

Authors: Hong-Xia Wang; Wenrong Pan; Lei Zheng; Xiao-Ping Zhong; Liang Tan; Zhanfeng Liang; Jing He; Pingfeng Feng; Yong Zhao; Yu-Rong Qiu
Journal: Front Immunol Date: 2020-01-31 Impact factor: 7.561

23 in total

1. Single-cell multiomics defines tolerogenic extrathymic Aire-expressing populations with unique homology to thymic epithelium.

Authors: Jiaxi Wang; Caleb A Lareau; Jhoanne L Bautista; Alexander R Gupta; Katalin Sandor; Joe Germino; Yajie Yin; Matthew P Arvedson; Gabriella C Reeder; Nathan T Cramer; Fang Xie; Vasilis Ntranos; Ansuman T Satpathy; Mark S Anderson; James M Gardner
Journal: Sci Immunol Date: 2021-11-12

2. Thymic epithelial cells co-opt lineage-defining transcription factors to eliminate autoreactive T cells.

Authors: Daniel A Michelson; Koji Hase; Tsuneyasu Kaisho; Christophe Benoist; Diane Mathis
Journal: Cell Date: 2022-06-16 Impact factor: 66.850

3. ILC3s select microbiota-specific regulatory T cells to establish tolerance in the gut.

Authors: Mengze Lyu; Hiroaki Suzuki; Lan Kang; Fabrina Gaspal; Wenqing Zhou; Jeremy Goc; Lei Zhou; Jordan Zhou; Wen Zhang; Zeli Shen; James G Fox; Robbyn E Sockolow; Terri M Laufer; Yong Fan; Gerard Eberl; David R Withers; Gregory F Sonnenberg
Journal: Nature Date: 2022-09-07 Impact factor: 69.504

Review 4. Thymus Functionality Needs More Than a Few TECs.

Authors: Pratibha Bhalla; Dong-Ming Su; Nicolai S C van Oers
Journal: Front Immunol Date: 2022-06-10 Impact factor: 8.786

5. Cytosolic Nuclear Sensor Dhx9 Controls Medullary Thymic Epithelial Cell Differentiation by p53-Mediated Pathways.

Authors: Xue Dong; Jiayu Zhang; Qian Zhang; Zhanfeng Liang; Yanan Xu; Yong Zhao; Baojun Zhang
Journal: Front Immunol Date: 2022-06-03 Impact factor: 8.786

Review 6. Transcriptional and epigenetic regulation in thymic epithelial cells.

Authors: Gustavo Ulises Martinez-Ruíz; Abigail Morales-Sánchez; Avinash Bhandoola
Journal: Immunol Rev Date: 2021-11-08 Impact factor: 10.983

7. Combined transient ablation and single-cell RNA-sequencing reveals the development of medullary thymic epithelial cells.

Authors: Kristen L Wells; Corey N Miller; Andreas R Gschwind; Wu Wei; Jonah D Phipps; Mark S Anderson; Lars M Steinmetz
Journal: Elife Date: 2020-11-23 Impact factor: 8.140

Review 8. In Pursuit of Adult Progenitors of Thymic Epithelial Cells.

Authors: Tatsuya Ishikawa; Nobuko Akiyama; Taishin Akiyama
Journal: Front Immunol Date: 2021-02-25 Impact factor: 7.561

9. Post-Aire Medullary Thymic Epithelial Cells and Hassall's Corpuscles as Inducers of Tonic Pro-Inflammatory Microenvironment.

Authors: Martti Laan; Ahto Salumets; Annabel Klein; Kerli Reintamm; Rudolf Bichele; Hedi Peterson; Pärt Peterson
Journal: Front Immunol Date: 2021-04-02 Impact factor: 7.561

Review 10. The Early Postnatal Life: A Dynamic Period in Thymic Epithelial Cell Differentiation.

Authors: Ruben G R Pinheiro; Nuno L Alves
Journal: Front Immunol Date: 2021-06-18 Impact factor: 7.561