Topological DNA Damage, Telomere Attrition and T Cell Senescence During Chronic Viral Infections

Yingjie Ji; Xindi Dang; Lam Ngoc Thao Nguyen; Lam Nhat Nguyen; Jaun Zhao; Dechao Cao; Sushant Khanal; Madison Schank; Xiao Y. Wu; Zheng D. Morrison; Yue Zou; Mohamed El Gazzar; Shunbin Ning; Ling Wang; Jonathan P. Moorman; Zhi Q. Yao

doi:10.1186/s12979-019-0153-z

Topological DNA Damage, Telomere Attrition and T Cell Senescence During Chronic Viral Infections

Yingjie Ji, Xindi Dang, Lam Ngoc Thao Nguyen, Lam Nhat Nguyen, Jaun Zhao, Dechao Cao, Sushant Khanal, Madison Schank, Xiao Y. Wu, Zheng D. Morrison, Yue Zou, Mohamed El Gazzar, Shunbin Ning, Ling Wang, Jonathan P. Moorman, Zhi Q. Yao

Department of Internal Medicine

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

Abstract

Background : T cells play a key role in controlling viral infections; however, the underlying mechanisms regulating their functions during human viral infections remain incompletely understood. Here, we used CD4 T cells derived from individuals with chronic viral infections or healthy T cells treated with camptothecin (CPT) - a topoisomerase I (Top 1) inhibitor - as a model to investigate the role of DNA topology in reprogramming telomeric DNA damage responses (DDR) and remodeling T cell functions.

Results : We demonstrated that Top 1 protein expression and enzyme activity were significantly inhibited, while the Top 1 cleavage complex (TOP1cc) was trapped in genomic DNA, in T cells derived from individuals with chronic viral (HCV, HBV, or HIV) infections. Top 1 inhibition by CPT treatment of healthy CD4 T cells caused topological DNA damage, telomere attrition, and T cell apoptosis or dysfunction via inducing Top1cc accumulation, PARP1 cleavage, and failure in DNA repair, thus recapitulating T cell dysregulation in the setting of chronic viral infections. Moreover, T cells from virally infected subjects with inhibited Top 1 activity were more vulnerable to CPT-induced topological DNA damage and cell apoptosis, indicating an important role for Top 1 in securing DNA integrity and cell survival.

Conclusion : These findings provide novel insights into the molecular mechanisms for immunomodulation by chronic viral infections via disrupting DNA topology to induce telomeric DNA damage, T cell senescence, apoptosis and dysfunction. As such, restoring the impaired DNA topologic machinery may offer a new strategy for maintaining T cell function against human viral diseases.

Original language	American English
Journal	Immunity and Aging
Volume	16
DOIs	https://doi.org/10.1186/s12979-019-0153-z
State	Published - Jun 24 2019

Keywords

T Cell Senescence
chronic viral infections
telomere attrition
topological DNA damage

Disciplines

Internal Medicine

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title = "Topological DNA Damage, Telomere Attrition and T Cell Senescence During Chronic Viral Infections",

abstract = " Background : T cells play a key role in controlling viral infections; however, the underlying mechanisms regulating their functions during human viral infections remain incompletely understood. Here, we used CD4 T cells derived from individuals with chronic viral infections or healthy T cells treated with camptothecin (CPT) - a topoisomerase I (Top 1) inhibitor - as a model to investigate the role of DNA topology in reprogramming telomeric DNA damage responses (DDR) and remodeling T cell functions. Results : We demonstrated that Top 1 protein expression and enzyme activity were significantly inhibited, while the Top 1 cleavage complex (TOP1cc) was trapped in genomic DNA, in T cells derived from individuals with chronic viral (HCV, HBV, or HIV) infections. Top 1 inhibition by CPT treatment of healthy CD4 T cells caused topological DNA damage, telomere attrition, and T cell apoptosis or dysfunction via inducing Top1cc accumulation, PARP1 cleavage, and failure in DNA repair, thus recapitulating T cell dysregulation in the setting of chronic viral infections. Moreover, T cells from virally infected subjects with inhibited Top 1 activity were more vulnerable to CPT-induced topological DNA damage and cell apoptosis, indicating an important role for Top 1 in securing DNA integrity and cell survival. Conclusion : These findings provide novel insights into the molecular mechanisms for immunomodulation by chronic viral infections via disrupting DNA topology to induce telomeric DNA damage, T cell senescence, apoptosis and dysfunction. As such, restoring the impaired DNA topologic machinery may offer a new strategy for maintaining T cell function against human viral diseases.",

keywords = "T Cell Senescence, chronic viral infections, telomere attrition, topological DNA damage",

author = "Yingjie Ji and Xindi Dang and Nguyen, \{Lam Ngoc Thao\} and Nguyen, \{Lam Nhat\} and Jaun Zhao and Dechao Cao and Sushant Khanal and Madison Schank and Wu, \{Xiao Y.\} and Morrison, \{Zheng D.\} and Yue Zou and \{El Gazzar\}, Mohamed and Shunbin Ning and Ling Wang and Moorman, \{Jonathan P.\} and Yao, \{Zhi Q.\}",

year = "2019",

month = jun,

day = "24",

doi = "10.1186/s12979-019-0153-z",

language = "American English",

volume = "16",

journal = "Immunity and Aging",

}

TY - JOUR

T1 - Topological DNA Damage, Telomere Attrition and T Cell Senescence During Chronic Viral Infections

AU - Ji, Yingjie

AU - Dang, Xindi

AU - Nguyen, Lam Ngoc Thao

AU - Nguyen, Lam Nhat

AU - Zhao, Jaun

AU - Cao, Dechao

AU - Khanal, Sushant

AU - Schank, Madison

AU - Wu, Xiao Y.

AU - Morrison, Zheng D.

AU - Zou, Yue

AU - El Gazzar, Mohamed

AU - Ning, Shunbin

AU - Wang, Ling

AU - Moorman, Jonathan P.

AU - Yao, Zhi Q.

PY - 2019/6/24

Y1 - 2019/6/24

N2 - Background : T cells play a key role in controlling viral infections; however, the underlying mechanisms regulating their functions during human viral infections remain incompletely understood. Here, we used CD4 T cells derived from individuals with chronic viral infections or healthy T cells treated with camptothecin (CPT) - a topoisomerase I (Top 1) inhibitor - as a model to investigate the role of DNA topology in reprogramming telomeric DNA damage responses (DDR) and remodeling T cell functions. Results : We demonstrated that Top 1 protein expression and enzyme activity were significantly inhibited, while the Top 1 cleavage complex (TOP1cc) was trapped in genomic DNA, in T cells derived from individuals with chronic viral (HCV, HBV, or HIV) infections. Top 1 inhibition by CPT treatment of healthy CD4 T cells caused topological DNA damage, telomere attrition, and T cell apoptosis or dysfunction via inducing Top1cc accumulation, PARP1 cleavage, and failure in DNA repair, thus recapitulating T cell dysregulation in the setting of chronic viral infections. Moreover, T cells from virally infected subjects with inhibited Top 1 activity were more vulnerable to CPT-induced topological DNA damage and cell apoptosis, indicating an important role for Top 1 in securing DNA integrity and cell survival. Conclusion : These findings provide novel insights into the molecular mechanisms for immunomodulation by chronic viral infections via disrupting DNA topology to induce telomeric DNA damage, T cell senescence, apoptosis and dysfunction. As such, restoring the impaired DNA topologic machinery may offer a new strategy for maintaining T cell function against human viral diseases.

AB - Background : T cells play a key role in controlling viral infections; however, the underlying mechanisms regulating their functions during human viral infections remain incompletely understood. Here, we used CD4 T cells derived from individuals with chronic viral infections or healthy T cells treated with camptothecin (CPT) - a topoisomerase I (Top 1) inhibitor - as a model to investigate the role of DNA topology in reprogramming telomeric DNA damage responses (DDR) and remodeling T cell functions. Results : We demonstrated that Top 1 protein expression and enzyme activity were significantly inhibited, while the Top 1 cleavage complex (TOP1cc) was trapped in genomic DNA, in T cells derived from individuals with chronic viral (HCV, HBV, or HIV) infections. Top 1 inhibition by CPT treatment of healthy CD4 T cells caused topological DNA damage, telomere attrition, and T cell apoptosis or dysfunction via inducing Top1cc accumulation, PARP1 cleavage, and failure in DNA repair, thus recapitulating T cell dysregulation in the setting of chronic viral infections. Moreover, T cells from virally infected subjects with inhibited Top 1 activity were more vulnerable to CPT-induced topological DNA damage and cell apoptosis, indicating an important role for Top 1 in securing DNA integrity and cell survival. Conclusion : These findings provide novel insights into the molecular mechanisms for immunomodulation by chronic viral infections via disrupting DNA topology to induce telomeric DNA damage, T cell senescence, apoptosis and dysfunction. As such, restoring the impaired DNA topologic machinery may offer a new strategy for maintaining T cell function against human viral diseases.

KW - T Cell Senescence

KW - chronic viral infections

KW - telomere attrition

KW - topological DNA damage

UR - https://dc.etsu.edu/etsu-works/6522

U2 - 10.1186/s12979-019-0153-z

DO - 10.1186/s12979-019-0153-z

M3 - Article

VL - 16

JO - Immunity and Aging

JF - Immunity and Aging

ER -

Topological DNA Damage, Telomere Attrition and T Cell Senescence During Chronic Viral Infections

Abstract

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