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Literature DB >> 27088904

Development and developmental potential of cortical thymic epithelial cells.

Izumi Ohigashi¹, Mina Kozai¹, Yousuke Takahama¹.

Abstract

The thymic cortex provides a microenvironment for the development and positive selection of immature T cells. Cortical thymic epithelial cells (cTECs), which structurally and functionally support the thymic cortical microenvironment, originate from endodermal epithelial progenitors that arise in the third pharyngeal pouch. Recent studies have revealed that thymic epithelial progenitors pass through a stage where the cells express cTEC-associated molecules prior to lineage separation into cTECs and medullary TECs (mTECs). Here, we review the molecular signatures of cTECs and highlight the development and developmental potential of cTECs.

Entities: Chemical

Keywords: cortex; cortical thymic epithelial cell; positive selection; thymic epithelial progenitor; thymus

Mesh：

Year: 2016 PMID： 27088904 DOI： 10.1111/imr.12404

Source DB: PubMed Journal: Immunol Rev ISSN： 0105-2896 Impact factor: 12.988

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Cited

18 in total

1. Construction of Thymus Organoids from Decellularized Thymus Scaffolds.

Authors: Asako Tajima; Isha Pradhan; Xuehui Geng; Massimo Trucco; Yong Fan
Journal: Methods Mol Biol Date: 2019

Review 2. Thymic epithelial cell heterogeneity: TEC by TEC.

Authors: Noam Kadouri; Shir Nevo; Yael Goldfarb; Jakub Abramson
Journal: Nat Rev Immunol Date: 2019-12-05 Impact factor: 53.106

3. De novo construction of T cell compartment in humanized mice engrafted with iPSC-derived thymus organoids.

Authors: Connor Wiegand; Wen Liu; Catherine McCormick; Ann Zeleniak; Ravikumar K; Amir Alavi; Haonan Guan; Suzanne Bertera; Robert Lakomy; Asako Tajima; Henry Cohen; Stephanie Wong; Lame Balikani; Benjamin Mizerak; Ziv Bar-Joseph; Massimo Trucco; Ipsita Banerjee; Yong Fan
Journal: Nat Methods Date: 2022-09-05 Impact factor: 47.990

Review 4. 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

5. Effects of PAMK on lncRNA, miRNA, and mRNA expression profiles of thymic epithelial cells.

Authors: Qingru Wu; Bingxin Li; Ying Li; Fenfen Liu; Lin Yang; Yongjiang Ma; Yuan Zhang; Danning Xu; Yugu Li
Journal: Funct Integr Genomics Date: 2022-05-04 Impact factor: 3.674

6. NF-κB-inducing kinase contributes to normal development of cortical thymic epithelial cells: its possible role in shaping a proper T-cell repertoire.

Authors: Koji Eshima; Kana Misawa; Chihiro Ohashi; Haruka Noma; Kazuya Iwabuchi
Journal: Immunology Date: 2020-04-13 Impact factor: 7.397

7. A critical epithelial survival axis regulated by MCL-1 maintains thymic function in mice.

Authors: Reema Jain; Julie M Sheridan; Antonia Policheni; Melanie Heinlein; Luke C Gandolfo; Grant Dewson; Gordon K Smyth; Stephen N Sansom; Nai Yang Fu; Jane E Visvader; Georg A Holländer; Andreas Strasser; Daniel H D Gray
Journal: Blood Date: 2017-09-29 Impact factor: 22.113

Review 8. Generation of diversity in thymic epithelial cells.

Authors: Yousuke Takahama; Izumi Ohigashi; Song Baik; Graham Anderson
Journal: Nat Rev Immunol Date: 2017-03-20 Impact factor: 53.106

9. Soluble antigens from the neurotropic pathogen Angiostrongylus cantonensis directly induce thymus atrophy in a mouse model.

Authors: Zhen Liu; Dong-Ming Su; Zi-Long Yu; Feng Wu; Rui-Feng Liu; Shi-Qi Luo; Zhi-Yue Lv; Xin Zeng; Xi Sun; Zhong-Dao Wu
Journal: Oncotarget Date: 2017-07-25

10. Progressive Changes in CXCR4 Expression That Define Thymocyte Positive Selection Are Dispensable For Both Innate and Conventional αβT-cell Development.

Authors: Beth Lucas; Andrea J White; Sonia M Parnell; Peter M Henley; William E Jenkinson; Graham Anderson
Journal: Sci Rep Date: 2017-07-11 Impact factor: 4.379