Docetaxel-induced Prostate Cancer Cell Death Involves Concomitant Activation of Caspase and Lysosomal Pathways and is Attenuated by LEDGF/p75

Overview

Journal Mol Cancer

Publisher Biomed Central

Specialties Molecular Biology
Oncology

Date 2009 Sep 1

PMID 19715609

Citations 61

Authors

Melanie Mediavilla-Varela

Fabio J Pacheco

Frankis Almaguel

Jossymar Perez

Eva Sahakian

Tracy R Daniels

Lai Sum Leoh

Amelia Padilla

Nathan R Wall

Michael B Lilly

Marino De Leon

Carlos A Casiano

Affiliations

Soon will be listed here.

Abstract

Background: Hormone-refractory prostate cancer (HRPC) is characterized by poor response to chemotherapy and high mortality, particularly among African American men when compared to other racial/ethnic groups. It is generally accepted that docetaxel, the standard of care for chemotherapy of HRPC, primarily exerts tumor cell death by inducing mitotic catastrophe and caspase-dependent apoptosis following inhibition of microtubule depolymerization. However, there is a gap in our knowledge of mechanistic events underlying docetaxel-induced caspase-independent cell death, and the genes that antagonize this process. This knowledge is important for circumventing HRPC chemoresistance and reducing disparities in prostate cancer mortality.

Results: We investigated mechanistic events associated with docetaxel-induced death in HRPC cell lines using various approaches that distinguish caspase-dependent from caspase-independent cell death. Docetaxel induced both mitotic catastrophe and caspase-dependent apoptosis at various concentrations. However, caspase activity was not essential for docetaxel-induced cytotoxicity since cell death associated with lysosomal membrane permeabilization still occurred in the presence of caspase inhibitors. Partial inhibition of docetaxel-induced cytotoxicity was observed after inhibition of cathepsin B, but not inhibition of cathepsins D and L, suggesting that docetaxel induces caspase-independent, lysosomal cell death. Simultaneous inhibition of caspases and cathepsin B dramatically reduced docetaxel-induced cell death. Ectopic expression of lens epithelium-derived growth factor p75 (LEDGF/p75), a stress survival autoantigen and transcription co-activator, attenuated docetaxel-induced lysosomal destabilization and cell death. Interestingly, LEDGF/p75 overexpression did not protect cells against DTX-induced mitotic catastrophe, and against apoptosis induced by tumor necrosis factor related apoptosis inducing ligand (TRAIL), suggesting selectivity in its pro-survival activity.

Conclusion: These results underscore the ability of docetaxel to induce concomitantly caspase-dependent and independent death pathways in prostate cancer cells. The results also point to LEDGF/p75 as a potential contributor to cellular resistance to docetaxel-induced lysosomal destabilization and cell death, and an attractive candidate for molecular targeting in HRPC.

Citing Articles

The Emerging Roles of the Stress Epigenetic Reader LEDGF/p75 in Cancer Biology and Therapy Resistance: Mechanisms and Targeting Opportunities.

Ortiz-Hernandez G, Sanchez-Hernandez E, Ochoa P, Casiano C Cancers (Basel). 2024; 16(23).

PMID: 39682146 PMC: 11640333. DOI: 10.3390/cancers16233957.

A Cross-sectional Comparative Analysis of Eleven Population Pharmacokinetic Models for Docetaxel in Chinese Breast Cancer Patients.

Wang G, Sun Q, Li X, Mei S, Li S, Li Z Curr Drug Metab. 2024; 25(7):479-488.

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Redox System and Oxidative Stress-Targeted Therapeutic Approaches in Bladder Cancer.

Dugbartey G, Relouw S, McFarlane L, Sener A Antioxidants (Basel). 2024; 13(3).

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Preparation, Optimization, and In-Vitro Evaluation of Brusatol- and Docetaxel-Loaded Nanoparticles for the Treatment of Prostate Cancer.

Adekiya T, Moore M, Thomas M, Lake G, Hudson T, Adesina S Pharmaceutics. 2024; 16(1).

PMID: 38258124 PMC: 10819281. DOI: 10.3390/pharmaceutics16010114.

Glucocorticoid Receptor Regulates and Interacts with LEDGF/p75 to Promote Docetaxel Resistance in Prostate Cancer Cells.

Sanchez-Hernandez E, Ochoa P, Suzuki T, Ortiz-Hernandez G, Unternaehrer J, Alkashgari H Cells. 2023; 12(16).

PMID: 37626856 PMC: 10453226. DOI: 10.3390/cells12162046.

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