Cytolethal Distending Toxin Enhances Radiosensitivity in Prostate Cancer Cells by Regulating Autophagy

Hwai Jeng Lin; Hsin Ho Liu; Chia Der Lin; Min Chuan Kao; Yu An Chen; Chuan Chiang-Ni; Zhi Pei Jiang; Mei Zi Huang; Chun Jung Lin; U. Ging Lo; Li Chiung Lin; Cheng Kuo Lai; Ho Lin; Jer Tsong Hsieh; Cheng Hsun Chiu; Chih Ho Lai

doi:10.3389/fcimb.2017.00223

Cytolethal Distending Toxin Enhances Radiosensitivity in Prostate Cancer Cells by Regulating Autophagy

Hwai Jeng Lin, Hsin Ho Liu, Chia Der Lin, Min Chuan Kao, Yu An Chen, Chuan Chiang-Ni, Zhi Pei Jiang, Mei Zi Huang, Chun Jung Lin, U. Ging Lo, Li Chiung Lin, Cheng Kuo Lai, Ho Lin, Jer Tsong Hsieh, Cheng Hsun Chiu, Chih Ho Lai

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

19 Scopus citations

Abstract

Cytolethal distending toxin (CDT) produced by Campylobacter jejuni contains three subunits: CdtA, CdtB, and CdtC. Among these three toxin subunits, CdtB is the toxic moiety of CDT with DNase I activity, resulting in DNA double-strand breaks (DSB) and, consequently, cell cycle arrest at the G2/M stage and apoptosis. Radiation therapy is an effective modality for the treatment of localized prostate cancer (PCa). However, patients often develop radioresistance. Owing to its particular biochemical properties, we previously employed CdtB as a therapeutic agent for sensitizing radioresistant PCa cells to ionizing radiation (IR). In this study, we further demonstrated that CDT suppresses the IR-induced autophagy pathway in PCa cells by attenuating c-Myc expression and therefore sensitizes PCa cells to radiation. We further showed that CDT prevents the formation of autophagosomes via decreased high-mobility group box 1 (HMGB1) expression and the inhibition of acidic vesicular organelle (AVO) formation, which are associated with enhanced radiosensitivity in PCa cells. The results of this study reveal the detailed mechanism of CDT for the treatment of radioresistant PCa.

Original language	English (US)
Article number	223
Journal	Frontiers in Cellular and Infection Microbiology
Volume	7
Issue number	JUN
DOIs	https://doi.org/10.3389/fcimb.2017.00223
State	Published - Jun 8 2017

Keywords

Autophagy
Campylobacter jejuni
Cell cycle
Cytolethal distending toxin
Radioresistance

ASJC Scopus subject areas

Microbiology
Immunology
Microbiology (medical)
Infectious Diseases

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10.3389/fcimb.2017.00223

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Lin, H. J., Liu, H. H., Lin, C. D., Kao, M. C., Chen, Y. A., Chiang-Ni, C., Jiang, Z. P., Huang, M. Z., Lin, C. J., Lo, U. G., Lin, L. C., Lai, C. K., Lin, H., Hsieh, J. T., Chiu, C. H., & Lai, C. H. (2017). Cytolethal Distending Toxin Enhances Radiosensitivity in Prostate Cancer Cells by Regulating Autophagy. Frontiers in Cellular and Infection Microbiology, 7(JUN), Article 223. https://doi.org/10.3389/fcimb.2017.00223

Lin, HJ, Liu, HH, Lin, CD, Kao, MC, Chen, YA, Chiang-Ni, C, Jiang, ZP, Huang, MZ, Lin, CJ, Lo, UG, Lin, LC, Lai, CK, Lin, H, Hsieh, JT, Chiu, CH & Lai, CH 2017, 'Cytolethal Distending Toxin Enhances Radiosensitivity in Prostate Cancer Cells by Regulating Autophagy', Frontiers in Cellular and Infection Microbiology, vol. 7, no. JUN, 223. https://doi.org/10.3389/fcimb.2017.00223

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title = "Cytolethal Distending Toxin Enhances Radiosensitivity in Prostate Cancer Cells by Regulating Autophagy",

abstract = "Cytolethal distending toxin (CDT) produced by Campylobacter jejuni contains three subunits: CdtA, CdtB, and CdtC. Among these three toxin subunits, CdtB is the toxic moiety of CDT with DNase I activity, resulting in DNA double-strand breaks (DSB) and, consequently, cell cycle arrest at the G2/M stage and apoptosis. Radiation therapy is an effective modality for the treatment of localized prostate cancer (PCa). However, patients often develop radioresistance. Owing to its particular biochemical properties, we previously employed CdtB as a therapeutic agent for sensitizing radioresistant PCa cells to ionizing radiation (IR). In this study, we further demonstrated that CDT suppresses the IR-induced autophagy pathway in PCa cells by attenuating c-Myc expression and therefore sensitizes PCa cells to radiation. We further showed that CDT prevents the formation of autophagosomes via decreased high-mobility group box 1 (HMGB1) expression and the inhibition of acidic vesicular organelle (AVO) formation, which are associated with enhanced radiosensitivity in PCa cells. The results of this study reveal the detailed mechanism of CDT for the treatment of radioresistant PCa.",

keywords = "Autophagy, Campylobacter jejuni, Cell cycle, Cytolethal distending toxin, Radioresistance",

author = "Lin, {Hwai Jeng} and Liu, {Hsin Ho} and Lin, {Chia Der} and Kao, {Min Chuan} and Chen, {Yu An} and Chuan Chiang-Ni and Jiang, {Zhi Pei} and Huang, {Mei Zi} and Lin, {Chun Jung} and Lo, {U. Ging} and Lin, {Li Chiung} and Lai, {Cheng Kuo} and Ho Lin and Hsieh, {Jer Tsong} and Chiu, {Cheng Hsun} and Lai, {Chih Ho}",

note = "Publisher Copyright: {\textcopyright} 2017 Lin, Liu, Lin, Kao, Chen, Chiang-Ni, Jiang, Huang, Lin, Lo, Lin, Lai, Lin, Hsieh, Chiu and Lai.",

year = "2017",

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doi = "10.3389/fcimb.2017.00223",

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T1 - Cytolethal Distending Toxin Enhances Radiosensitivity in Prostate Cancer Cells by Regulating Autophagy

AU - Lin, Hwai Jeng

AU - Liu, Hsin Ho

AU - Lin, Chia Der

AU - Kao, Min Chuan

AU - Chen, Yu An

AU - Chiang-Ni, Chuan

AU - Jiang, Zhi Pei

AU - Huang, Mei Zi

AU - Lin, Chun Jung

AU - Lo, U. Ging

AU - Lin, Li Chiung

AU - Lai, Cheng Kuo

AU - Lin, Ho

AU - Hsieh, Jer Tsong

AU - Chiu, Cheng Hsun

AU - Lai, Chih Ho

PY - 2017/6/8

Y1 - 2017/6/8

N2 - Cytolethal distending toxin (CDT) produced by Campylobacter jejuni contains three subunits: CdtA, CdtB, and CdtC. Among these three toxin subunits, CdtB is the toxic moiety of CDT with DNase I activity, resulting in DNA double-strand breaks (DSB) and, consequently, cell cycle arrest at the G2/M stage and apoptosis. Radiation therapy is an effective modality for the treatment of localized prostate cancer (PCa). However, patients often develop radioresistance. Owing to its particular biochemical properties, we previously employed CdtB as a therapeutic agent for sensitizing radioresistant PCa cells to ionizing radiation (IR). In this study, we further demonstrated that CDT suppresses the IR-induced autophagy pathway in PCa cells by attenuating c-Myc expression and therefore sensitizes PCa cells to radiation. We further showed that CDT prevents the formation of autophagosomes via decreased high-mobility group box 1 (HMGB1) expression and the inhibition of acidic vesicular organelle (AVO) formation, which are associated with enhanced radiosensitivity in PCa cells. The results of this study reveal the detailed mechanism of CDT for the treatment of radioresistant PCa.

AB - Cytolethal distending toxin (CDT) produced by Campylobacter jejuni contains three subunits: CdtA, CdtB, and CdtC. Among these three toxin subunits, CdtB is the toxic moiety of CDT with DNase I activity, resulting in DNA double-strand breaks (DSB) and, consequently, cell cycle arrest at the G2/M stage and apoptosis. Radiation therapy is an effective modality for the treatment of localized prostate cancer (PCa). However, patients often develop radioresistance. Owing to its particular biochemical properties, we previously employed CdtB as a therapeutic agent for sensitizing radioresistant PCa cells to ionizing radiation (IR). In this study, we further demonstrated that CDT suppresses the IR-induced autophagy pathway in PCa cells by attenuating c-Myc expression and therefore sensitizes PCa cells to radiation. We further showed that CDT prevents the formation of autophagosomes via decreased high-mobility group box 1 (HMGB1) expression and the inhibition of acidic vesicular organelle (AVO) formation, which are associated with enhanced radiosensitivity in PCa cells. The results of this study reveal the detailed mechanism of CDT for the treatment of radioresistant PCa.

KW - Autophagy

KW - Campylobacter jejuni

KW - Cell cycle

KW - Cytolethal distending toxin

KW - Radioresistance

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Cytolethal Distending Toxin Enhances Radiosensitivity in Prostate Cancer Cells by Regulating Autophagy

Abstract

Keywords

ASJC Scopus subject areas

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