Telomere dysfunction instigates inflammation in inflammatory bowel disease

Deepavali Chakravarti; Rumi Lee; Asha S. Multani; Andrea Santoni; Zachery Keith; Wen Hao Hsu; Kyle Chang; Laura Reyes; Asif Rashid; Chang Jiun Wu; Jun Li; Jiexin Zhang; Hong Seok Shim; Krishna Chandra; Pingna Deng; Denise J. Spring; Ole Haagen Nielsen; Lene Buhl Riis; Kavya Kelagere Mayigegowda; Sarah E. Blutt; Jianhua Zhang; Mamoun Younes; Andrew DuPont; Selvi Thirumurthi; Eduardo Vilar; Mary K. Estes; Simona Colla; Noah F. Shroyer; Ronald A. DePinho

doi:10.1073/pnas.2024853118

Telomere dysfunction instigates inflammation in inflammatory bowel disease

Deepavali Chakravarti, Rumi Lee, Asha S. Multani, Andrea Santoni, Zachery Keith, Wen Hao Hsu, Kyle Chang, Laura Reyes, Asif Rashid, Chang Jiun Wu, Jun Li, Jiexin Zhang, Hong Seok Shim, Krishna Chandra, Pingna Deng, Denise J. Spring, Ole Haagen Nielsen, Lene Buhl Riis, Kavya Kelagere Mayigegowda, Sarah E. BluttJianhua Zhang, Mamoun Younes, Andrew DuPont, Selvi Thirumurthi, Eduardo Vilar, Mary K. Estes, Simona Colla, Noah F. Shroyer, Ronald A. DePinho

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27 Scopus citations

Abstract

Inflammatory bowel disease (IBD) is a chronic inflammatory condition driven by diverse genetic and nongenetic programs that converge to disrupt immune homeostasis in the intestine. We have reported that, in murine intestinal epithelium with telomere dysfunction, DNA damage-induced activation of ataxia-telangiectasia mutated (ATM) results in ATM-mediated phosphorylation and activation of the YAP1 transcriptional coactivator, which in turn up-regulates pro-IL-18, a pivotal immune regulator in IBD pathogenesis. Moreover, individuals with germline defects in telomere maintenance genes experience increased occurrence of intestinal inflammation and show activation of the ATM/YAP1/pro-IL-18 pathway in the intestinal epithelium. Here, we sought to determine the relevance of the ATM/YAP1/pro-IL-18 pathway as a potential driver of IBD, particularly older-onset IBD. Analysis of intestinal biopsy specimens and organoids from older-onset IBD patients documented the presence of telomere dysfunction and activation of the ATM/YAP1/ precursor of interleukin 18 (pro-IL-18) pathway in the intestinal epithelium. Employing intestinal organoids from healthy individuals, we demonstrated that experimental induction of telomere dysfunction activates this inflammatory pathway. In organoid models from ulcerative colitis and Crohn’s disease patients, pharmacological interventions of telomerase reactivation, suppression of DNA damage signaling, or YAP1 inhibition reduced pro-IL-18 production. Together, these findings support a model wherein telomere dysfunction in the intestinal epithelium can initiate the inflammatory process in IBD, pointing to therapeutic interventions for this disease.

Original language	English (US)
Article number	e2024853118
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	118
Issue number	29
DOIs	https://doi.org/10.1073/pnas.2024853118
State	Published - Jul 20 2021

Keywords

DNA damage
Inflammatory bowel disease
Pro-IL-18
Telomere dysfunction
Yap1

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10.1073/pnas.2024853118

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Chakravarti, D., Lee, R., Multani, A. S., Santoni, A., Keith, Z., Hsu, W. H., Chang, K., Reyes, L., Rashid, A., Wu, C. J., Li, J., Zhang, J., Shim, H. S., Chandra, K., Deng, P., Spring, D. J., Nielsen, O. H., Riis, L. B., Mayigegowda, K. K., ... DePinho, R. A. (2021). Telomere dysfunction instigates inflammation in inflammatory bowel disease. Proceedings of the National Academy of Sciences of the United States of America, 118(29), Article e2024853118. https://doi.org/10.1073/pnas.2024853118

Chakravarti, D, Lee, R, Multani, AS, Santoni, A, Keith, Z, Hsu, WH, Chang, K, Reyes, L, Rashid, A, Wu, CJ, Li, J , Zhang, J , Shim, HS, Chandra, K, Deng, P, Spring, DJ, Nielsen, OH, Riis, LB, Mayigegowda, KK, Blutt, SE, Zhang, J, Younes, M, DuPont, A, Thirumurthi, S , Vilar, E, Estes, MK, Colla, S, Shroyer, NF & DePinho, RA 2021, 'Telomere dysfunction instigates inflammation in inflammatory bowel disease', Proceedings of the National Academy of Sciences of the United States of America, vol. 118, no. 29, e2024853118. https://doi.org/10.1073/pnas.2024853118

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title = "Telomere dysfunction instigates inflammation in inflammatory bowel disease",

abstract = "Inflammatory bowel disease (IBD) is a chronic inflammatory condition driven by diverse genetic and nongenetic programs that converge to disrupt immune homeostasis in the intestine. We have reported that, in murine intestinal epithelium with telomere dysfunction, DNA damage-induced activation of ataxia-telangiectasia mutated (ATM) results in ATM-mediated phosphorylation and activation of the YAP1 transcriptional coactivator, which in turn up-regulates pro-IL-18, a pivotal immune regulator in IBD pathogenesis. Moreover, individuals with germline defects in telomere maintenance genes experience increased occurrence of intestinal inflammation and show activation of the ATM/YAP1/pro-IL-18 pathway in the intestinal epithelium. Here, we sought to determine the relevance of the ATM/YAP1/pro-IL-18 pathway as a potential driver of IBD, particularly older-onset IBD. Analysis of intestinal biopsy specimens and organoids from older-onset IBD patients documented the presence of telomere dysfunction and activation of the ATM/YAP1/ precursor of interleukin 18 (pro-IL-18) pathway in the intestinal epithelium. Employing intestinal organoids from healthy individuals, we demonstrated that experimental induction of telomere dysfunction activates this inflammatory pathway. In organoid models from ulcerative colitis and Crohn{\textquoteright}s disease patients, pharmacological interventions of telomerase reactivation, suppression of DNA damage signaling, or YAP1 inhibition reduced pro-IL-18 production. Together, these findings support a model wherein telomere dysfunction in the intestinal epithelium can initiate the inflammatory process in IBD, pointing to therapeutic interventions for this disease.",

keywords = "DNA damage, Inflammatory bowel disease, Pro-IL-18, Telomere dysfunction, Yap1",

author = "Deepavali Chakravarti and Rumi Lee and Multani, {Asha S.} and Andrea Santoni and Zachery Keith and Hsu, {Wen Hao} and Kyle Chang and Laura Reyes and Asif Rashid and Wu, {Chang Jiun} and Jun Li and Jiexin Zhang and Shim, {Hong Seok} and Krishna Chandra and Pingna Deng and Spring, {Denise J.} and Nielsen, {Ole Haagen} and Riis, {Lene Buhl} and Mayigegowda, {Kavya Kelagere} and Blutt, {Sarah E.} and Jianhua Zhang and Mamoun Younes and Andrew DuPont and Selvi Thirumurthi and Eduardo Vilar and Estes, {Mary K.} and Simona Colla and Shroyer, {Noah F.} and DePinho, {Ronald A.}",

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T1 - Telomere dysfunction instigates inflammation in inflammatory bowel disease

AU - Chakravarti, Deepavali

AU - Lee, Rumi

AU - Multani, Asha S.

AU - Santoni, Andrea

AU - Keith, Zachery

AU - Hsu, Wen Hao

AU - Chang, Kyle

AU - Reyes, Laura

AU - Rashid, Asif

AU - Wu, Chang Jiun

AU - Li, Jun

AU - Zhang, Jiexin

AU - Shim, Hong Seok

AU - Chandra, Krishna

AU - Deng, Pingna

AU - Spring, Denise J.

AU - Nielsen, Ole Haagen

AU - Riis, Lene Buhl

AU - Mayigegowda, Kavya Kelagere

AU - Blutt, Sarah E.

AU - Zhang, Jianhua

AU - Younes, Mamoun

AU - DuPont, Andrew

AU - Thirumurthi, Selvi

AU - Vilar, Eduardo

AU - Estes, Mary K.

AU - Colla, Simona

AU - Shroyer, Noah F.

AU - DePinho, Ronald A.

PY - 2021/7/20

Y1 - 2021/7/20

N2 - Inflammatory bowel disease (IBD) is a chronic inflammatory condition driven by diverse genetic and nongenetic programs that converge to disrupt immune homeostasis in the intestine. We have reported that, in murine intestinal epithelium with telomere dysfunction, DNA damage-induced activation of ataxia-telangiectasia mutated (ATM) results in ATM-mediated phosphorylation and activation of the YAP1 transcriptional coactivator, which in turn up-regulates pro-IL-18, a pivotal immune regulator in IBD pathogenesis. Moreover, individuals with germline defects in telomere maintenance genes experience increased occurrence of intestinal inflammation and show activation of the ATM/YAP1/pro-IL-18 pathway in the intestinal epithelium. Here, we sought to determine the relevance of the ATM/YAP1/pro-IL-18 pathway as a potential driver of IBD, particularly older-onset IBD. Analysis of intestinal biopsy specimens and organoids from older-onset IBD patients documented the presence of telomere dysfunction and activation of the ATM/YAP1/ precursor of interleukin 18 (pro-IL-18) pathway in the intestinal epithelium. Employing intestinal organoids from healthy individuals, we demonstrated that experimental induction of telomere dysfunction activates this inflammatory pathway. In organoid models from ulcerative colitis and Crohn’s disease patients, pharmacological interventions of telomerase reactivation, suppression of DNA damage signaling, or YAP1 inhibition reduced pro-IL-18 production. Together, these findings support a model wherein telomere dysfunction in the intestinal epithelium can initiate the inflammatory process in IBD, pointing to therapeutic interventions for this disease.

AB - Inflammatory bowel disease (IBD) is a chronic inflammatory condition driven by diverse genetic and nongenetic programs that converge to disrupt immune homeostasis in the intestine. We have reported that, in murine intestinal epithelium with telomere dysfunction, DNA damage-induced activation of ataxia-telangiectasia mutated (ATM) results in ATM-mediated phosphorylation and activation of the YAP1 transcriptional coactivator, which in turn up-regulates pro-IL-18, a pivotal immune regulator in IBD pathogenesis. Moreover, individuals with germline defects in telomere maintenance genes experience increased occurrence of intestinal inflammation and show activation of the ATM/YAP1/pro-IL-18 pathway in the intestinal epithelium. Here, we sought to determine the relevance of the ATM/YAP1/pro-IL-18 pathway as a potential driver of IBD, particularly older-onset IBD. Analysis of intestinal biopsy specimens and organoids from older-onset IBD patients documented the presence of telomere dysfunction and activation of the ATM/YAP1/ precursor of interleukin 18 (pro-IL-18) pathway in the intestinal epithelium. Employing intestinal organoids from healthy individuals, we demonstrated that experimental induction of telomere dysfunction activates this inflammatory pathway. In organoid models from ulcerative colitis and Crohn’s disease patients, pharmacological interventions of telomerase reactivation, suppression of DNA damage signaling, or YAP1 inhibition reduced pro-IL-18 production. Together, these findings support a model wherein telomere dysfunction in the intestinal epithelium can initiate the inflammatory process in IBD, pointing to therapeutic interventions for this disease.

KW - DNA damage

KW - Inflammatory bowel disease

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KW - Telomere dysfunction

KW - Yap1

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JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

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ER -

Telomere dysfunction instigates inflammation in inflammatory bowel disease

Abstract

Keywords

ASJC Scopus subject areas

MD Anderson CCSG core facilities

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