Co-signaling receptors regulate T-cell plasticity and immune tolerance

Haitao Shen; Na Wu; Gayani Nanayakkara; Hangfei Fu; Qian Yang; William Y. Yang; Angus Li; Yu Sun; I. V. Charles Drummer; Candice Johnson; Ying Shao; Luqiao Wang; Keman Xu; Wenhui Hu; Marion Chan; Vincent Tam; Eric T. Choi; Hong Wang; Xiaofeng Yang

doi:10.2741/4710

Co-signaling receptors regulate T-cell plasticity and immune tolerance

Haitao Shen, Na Wu, Gayani Nanayakkara, Hangfei Fu, Qian Yang, William Y. Yang, Angus Li, Yu Sun, I. V. Charles Drummer, Candice Johnson, Ying Shao, Luqiao Wang, Keman Xu, Wenhui Hu, Marion Chan, Vincent Tam, Eric T. Choi, Hong Wang, Xiaofeng Yang

Research output: Contribution to journal › Article › peer-review

37 Scopus citations

Abstract

We took an experimental database mining analysis to determine the expression of 28 co-signaling receptors in 32 human tissues in physiological/ pathological conditions. We made the following significant findings: 1) co-signaling receptors are differentially expressed in tissues; 2) heart, trachea, kidney, mammary gland and muscle express co-signaling receptors that mediate CD4⁺T cell functions such as priming, differentiation, effector, and memory; 3) urinary tumor, germ cell tumor, leukemia and chondrosarcoma express high levels of co-signaling receptors for T cell activation; 4) expression of inflammasome components are correlated with the expression of co-signaling receptors; 5) CD40, SLAM, CD80 are differentially expressed in leukocytes from patients with trauma, bacterial infections, polarized macrophages and in activated endothelial cells; 6) forward and reverse signaling of 50% co-inhibition receptors are upregulated in endothelial cells during inflammation; and 7) STAT1 deficiency in T cells upregulates MHC class II and co-stimulation receptors. Our results have provided novel insights into co-signaling receptors as physiological regulators and potentiate identification of new therapeutic targets for the treatment of sterile inflammatory disorders.

Original language	English
Pages (from-to)	96-132
Number of pages	37
Journal	Frontiers in Bioscience - Landmark
Volume	24
Issue number	1
DOIs	https://doi.org/10.2741/4710
State	Published - Jan 1 2019
Externally published	Yes

Keywords

Antigen presenting cells
Co-stimulation and co-inhibition receptors
Reverse signaling
STAT1 deficiency
T cell plasticity

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title = "Co-signaling receptors regulate T-cell plasticity and immune tolerance",

abstract = "We took an experimental database mining analysis to determine the expression of 28 co-signaling receptors in 32 human tissues in physiological/ pathological conditions. We made the following significant findings: 1) co-signaling receptors are differentially expressed in tissues; 2) heart, trachea, kidney, mammary gland and muscle express co-signaling receptors that mediate CD4+T cell functions such as priming, differentiation, effector, and memory; 3) urinary tumor, germ cell tumor, leukemia and chondrosarcoma express high levels of co-signaling receptors for T cell activation; 4) expression of inflammasome components are correlated with the expression of co-signaling receptors; 5) CD40, SLAM, CD80 are differentially expressed in leukocytes from patients with trauma, bacterial infections, polarized macrophages and in activated endothelial cells; 6) forward and reverse signaling of 50% co-inhibition receptors are upregulated in endothelial cells during inflammation; and 7) STAT1 deficiency in T cells upregulates MHC class II and co-stimulation receptors. Our results have provided novel insights into co-signaling receptors as physiological regulators and potentiate identification of new therapeutic targets for the treatment of sterile inflammatory disorders.",

keywords = "Antigen presenting cells, Co-stimulation and co-inhibition receptors, Reverse signaling, STAT1 deficiency, T cell plasticity",

author = "Haitao Shen and Na Wu and Gayani Nanayakkara and Hangfei Fu and Qian Yang and Yang, {William Y.} and Angus Li and Yu Sun and {Charles Drummer}, {I. V.} and Candice Johnson and Ying Shao and Luqiao Wang and Keman Xu and Wenhui Hu and Marion Chan and Vincent Tam and Choi, {Eric T.} and Hong Wang and Xiaofeng Yang",

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AU - Shen, Haitao

AU - Wu, Na

AU - Nanayakkara, Gayani

AU - Fu, Hangfei

AU - Yang, Qian

AU - Yang, William Y.

AU - Li, Angus

AU - Sun, Yu

AU - Charles Drummer, I. V.

AU - Johnson, Candice

AU - Shao, Ying

AU - Wang, Luqiao

AU - Xu, Keman

AU - Hu, Wenhui

AU - Chan, Marion

AU - Tam, Vincent

AU - Choi, Eric T.

AU - Wang, Hong

AU - Yang, Xiaofeng

PY - 2019/1/1

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N2 - We took an experimental database mining analysis to determine the expression of 28 co-signaling receptors in 32 human tissues in physiological/ pathological conditions. We made the following significant findings: 1) co-signaling receptors are differentially expressed in tissues; 2) heart, trachea, kidney, mammary gland and muscle express co-signaling receptors that mediate CD4+T cell functions such as priming, differentiation, effector, and memory; 3) urinary tumor, germ cell tumor, leukemia and chondrosarcoma express high levels of co-signaling receptors for T cell activation; 4) expression of inflammasome components are correlated with the expression of co-signaling receptors; 5) CD40, SLAM, CD80 are differentially expressed in leukocytes from patients with trauma, bacterial infections, polarized macrophages and in activated endothelial cells; 6) forward and reverse signaling of 50% co-inhibition receptors are upregulated in endothelial cells during inflammation; and 7) STAT1 deficiency in T cells upregulates MHC class II and co-stimulation receptors. Our results have provided novel insights into co-signaling receptors as physiological regulators and potentiate identification of new therapeutic targets for the treatment of sterile inflammatory disorders.

AB - We took an experimental database mining analysis to determine the expression of 28 co-signaling receptors in 32 human tissues in physiological/ pathological conditions. We made the following significant findings: 1) co-signaling receptors are differentially expressed in tissues; 2) heart, trachea, kidney, mammary gland and muscle express co-signaling receptors that mediate CD4+T cell functions such as priming, differentiation, effector, and memory; 3) urinary tumor, germ cell tumor, leukemia and chondrosarcoma express high levels of co-signaling receptors for T cell activation; 4) expression of inflammasome components are correlated with the expression of co-signaling receptors; 5) CD40, SLAM, CD80 are differentially expressed in leukocytes from patients with trauma, bacterial infections, polarized macrophages and in activated endothelial cells; 6) forward and reverse signaling of 50% co-inhibition receptors are upregulated in endothelial cells during inflammation; and 7) STAT1 deficiency in T cells upregulates MHC class II and co-stimulation receptors. Our results have provided novel insights into co-signaling receptors as physiological regulators and potentiate identification of new therapeutic targets for the treatment of sterile inflammatory disorders.

KW - Antigen presenting cells

KW - Co-stimulation and co-inhibition receptors

KW - Reverse signaling

KW - STAT1 deficiency

KW - T cell plasticity

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Co-signaling receptors regulate T-cell plasticity and immune tolerance

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