SERPINB3 protects from oxidative damage by chemotherapeutics through inhibition of mitochondrial respiratory complex I

Francesco Ciscato; Marco Sciacovelli; Gianmarco Villano; Cristian Turato; Paolo Bernardi; Andrea Rasola; Patrizia Pontisso

doi:10.18632/oncotarget.1411

Oncotarget

Oncotarget (a primarily oncology-focused, peer-reviewed, open access journal) aims to maximize research impact through insightful peer-review; eliminate borders between specialties by linking different fields of oncology, cancer research and biomedical sciences; and foster application of basic and clinical science.

Its scope is unique. The term "oncotarget" encompasses all molecules, pathways, cellular functions, cell types, and even tissues that can be viewed as targets relevant to cancer as well as other diseases. The term was introduced in the inaugural Editorial, Introducing Oncotarget.

As of January 1, 2022, Oncotarget has shifted to a continuous publishing model. Papers will now be published continuously within yearly volumes in their final and complete form and then quickly released to Pubmed.

Subscribe to receive alerts once a paper has been published by Oncotarget.

Impact Journals, LLC is the publisher of Oncotarget: www.impactjournals.com.

Impact Journals is a member of the Wellcome Trust List of Compliant Publishers.

Impact Journals is a member of the Society for Scholarly Publishing.

On December 23, 2022, Oncotarget server experienced a DDoS attack. As a result, Oncotarget site was inaccessible for a few hours. Oncotarget team swiftly dealt with the situation and took it under control. This malicious action will be reported to the FBI.

Research Papers:

SERPINB3 protects from oxidative damage by chemotherapeutics through inhibition of mitochondrial respiratory complex I

Francesco Ciscato, Marco Sciacovelli, Gianmarco Villano, Cristian Turato, Paolo Bernardi, Andrea Rasola _ and Patrizia Pontisso

PDF | HTML | Supplementary Files | How to cite

Oncotarget. 2014; 5:2418-2427. https://doi.org/10.18632/oncotarget.1411

Metrics: PDF 2932 views | HTML 3219 views | ?

Abstract

Francesco Ciscato1,2 Marco Sciacovelli1,3, Gianmarco Villano2, Cristian Turato2, Paolo Bernardi1, Andrea Rasola1, Patrizia Pontisso2

1 CNR Institute of Neuroscience and Department of Biomedical Sciences, University of Padova, Padova, Italy;

2 Department of Medicine, University of Padova, Padova, Italy

3 present address: Medical Research Council Cancer Unit, Hutchison/MRC Research Centre, Hills Road, Cambridge, United Kingdom

Correspondence:

Andrea Rasola, email:

Keywords: SERPINB3; chemotherapeutics; mitochondria; respiratory complexes; reactive oxygen species; cell death

Received: September 13, 2013 Accepted: December 24, 2013 Published: December 24, 2013

Abstract

SERPINB3 (SB3) is a serine protease inhibitor overexpressed in several malignancies of epithelial origin, including primary liver cancer, where it inhibits apoptosis through poorly defined mechanisms. In the present study we analyze the effect of SB3 on hepatoma cell death elicited by a panel of chemotherapeutic agents. We report that SB3 shields cells from the toxicity of drugs with a pro-oxidant action such as doxorubicin, cisplatin and EM20-25. The rapid rise in ROS levels prompted by these compounds causes opening of the mitochondrial permeability transition pore (PTP), irreversibly committing cells to death. We find that a fraction of SB3 locates in mitochondrial inner compartments, and that this mitochondrial fraction increases under conditions of oxidative stress. Mitochondrial SB3 inhibits ROS generation and the ensuing PTP induction and cell death through an inhibitory interaction with respiratory Complex I. These findings identify a novel mechanism of action of SB3 that contributes to tumor cell resistance to anti-neoplastic drugs

All site content, except where otherwise noted, is licensed under a Creative Commons Attribution 4.0 License.
PII: 1411

Publication Alerts

Research Papers:

SERPINB3 protects from oxidative damage by chemotherapeutics through inhibition of mitochondrial respiratory complex I

Abstract