ErbB-2 Induces the Cyclin D1 Gene in Prostate Epithelial Cells in Vitro and in Vivo

Overview

Journal Cancer Res

Specialty Oncology

Date 2007 May 8

PMID 17483350

Citations 21

Authors

Mathew Casimiro

Olga Rodriguez

Llana Pootrakul

Maral Aventian

Nadia Lushina

Caroline Cromelin

Georgina Ferzli

Kevin Johnson

Stanley Fricke

Fantahun Diba

Bhaskar Kallakury

Chioma Ohanyerenwa

Maxine Chen

Michael Ostrowski

Mien-Chie Hung

Shafaat A Rabbani

Ram Datar

Richard Cote

Richard Pestell

Chris Albanese

Affiliations

Soon will be listed here.

Abstract

The receptor tyrosine kinase ErbB-2 plays an important role in the regulation of growth factor-induced signal transduction cascades in the epithelium, and ErbB-2 is frequently overexpressed in epithelial tumors. Our previous studies on clinical prostate cancer specimens indicated that ErbB-2 expression was increased in patients undergoing hormone ablation therapy. We had also shown that the critical cell cycle regulatory gene cyclin D1 and its promoter were targets of proliferative signaling in prostate cancer cell lines, and that cyclin D1 was required for ErbB-2-induced mammary tumorigenesis. In the current studies, we found that increased ErbB-2 membrane expression correlated with increased nuclear cyclin D1 staining in clinical prostate cancer specimens, and that expression of ErbB-2 was capable of inducing cell cycle progression in human prostate cancer cell lines. We further showed that ErbB-2 induced the cyclin D1 promoter in DU145 cells, and that small interfering RNA knockdown of cyclin D1 protein levels blocked a significant proportion of the heregulin-induced cell cycle progression in LNCaP cells. Probasin promoter-targeted expression of an activated ErbB-2 isoform induced cyclin D1 expression in the mouse prostate, commensurate with prostate intraepithelial neoplasia. Together, these in vitro and in vivo studies identify cyclin D1 as a critical downstream target of ErbB-2 in the prostate epithelium, both of which are possible therapeutic targets for cancer intervention. Furthermore, our novel mouse model provides a useful platform for ongoing in vivo investigations of ErbB-2 signaling in the prostate epithelium.

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