Targeting a Novel Androgen Receptor-Repressed Pathway in Prostate Cancer Therapy

The primary goal of this study is to investigate the potential roles of protein kinase D (PKD) in mediating therapeutic resistance to ADT and to investigate the impact of PKD small molecule inhibitor (SMI)-based combination therapies to curtail ADT-induced therapy resistance. During the past funding...

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1. Verfasser:	Wang,Qiming J
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Sprache:	eng
Schlagworte:	androgen androgen receptor androgen-deprivation therapy cells(biology) drug resistance genes inhibitors Medicine and Medical Research METASTASIS prostate cancer protein protein kinase D therapeutic resistance therapy TRANSCRIPTION (GENETICS)
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creator	Wang,Qiming J
description	The primary goal of this study is to investigate the potential roles of protein kinase D (PKD) in mediating therapeutic resistance to ADT and to investigate the impact of PKD small molecule inhibitor (SMI)-based combination therapies to curtail ADT-induced therapy resistance. During the past funding cycle, we examined the cross-regulation of PKD1 by androgen signaling in prostate cancer cells. Our data has identified PKD1 as a novel androgen-repressed gene at transcriptional level. Kinetic analysis indicated that the repression of PKD1 by androgen required the induction of a repressor protein, and AR was required for the suppression of PKD1 by androgen. Downstream of AR, we identified fibroblast growth factor receptor substrate 2 (FRS2) and its downstream MEK/ERK pathway as the mediators of androgen-induced PKD1 repression. Our study indicates that PKD1 is a novel androgen suppressed gene and can be downregulated by androgen through a novel AR/FRS2/MEK/ERK pathway.The upregulation of the prosurvival PKD1 by antiandrogens may contribute to therapeutic resistance in prostate cancer treatment.
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During the past funding cycle, we examined the cross-regulation of PKD1 by androgen signaling in prostate cancer cells. Our data has identified PKD1 as a novel androgen-repressed gene at transcriptional level. Kinetic analysis indicated that the repression of PKD1 by androgen required the induction of a repressor protein, and AR was required for the suppression of PKD1 by androgen. Downstream of AR, we identified fibroblast growth factor receptor substrate 2 (FRS2) and its downstream MEK/ERK pathway as the mediators of androgen-induced PKD1 repression. 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subjects	androgen androgen receptor androgen-deprivation therapy cells(biology) drug resistance genes inhibitors Medicine and Medical Research METASTASIS prostate cancer protein protein kinase D therapeutic resistance therapy TRANSCRIPTION (GENETICS)
title	Targeting a Novel Androgen Receptor-Repressed Pathway in Prostate Cancer Therapy
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