Vitamin D Receptor Activation Reduces VCaP Xenograft Tumor Growth and Counteracts ERG Activity Despite Induction of TMPRSS2:ERG

Overview

Journal Oncotarget

Specialty Oncology

Date 2017 Jun 8

PMID 28591703

Citations 1

Authors

Justin M Roberts

Rebeca San Martin

D Badrajee Piyarathna

James G MacKrell

Guilherme V Rocha

Jeffery A Dodge

Cristian Coarfa

Venkatesh Krishnan

David R Rowley

Nancy L Weigel

Affiliations

Soon will be listed here.

Abstract

Whether vitamin D is chemopreventive and/or has potential therapeutically in prostate cancer is unresolved. One confounding factor is that many prostate cancers express a TMPRSS2:ERG fusion gene whose expression is increased both by androgens and by vitamin D receptor (VDR) activation. Two challenges that limit VDR agonist use clinically are hypercalcemia and the cooperation of VDR with ERG to hyper-induce the 1α,25-dihydroxyvitamin D3 metabolizing enzyme, CYP24A1, thus reducing VDR activity. Using the VCaP TMPRSS2:ERG positive cell line as a model, we found that a nonsecosteroidal CYP24A1 resistant VDR agonist, VDRM2, substantially reduces growth of xenograft tumors without inducing hypercalcemia. Utilizing next generation RNA sequencing, we found a very high overlap of 1,25D(OH)2D3 and VDRM2 regulated genes and by drawing upon previously published datasets to create an ERG signature, we found activation of VDR does not induce ERG activity above the already high basal levels present in VCaP cells. Moreover, we found VDR activation opposes 8 of the 10 most significant ERG regulated Hallmark gene set collection pathways from Gene Set Enrichment Analysis (GSEA). Thus, a CYP24A1 resistant VDR agonist may be beneficial for treatment of TMPRSS2:ERG positive prostate cancer; one negative consequence of TMPRSS2:ERG expression is inactivation of VDR signaling.

Citing Articles

Effect of Calcitriol and Vitamin D Receptor Modulator 2 on Recovery of Injured Skeletal Muscle in Wistar Rats.

Stratos I, Schleese S, Rinas I, Vollmar B, Mittlmeier T Biomedicines. 2023; 11(9).

PMID: 37760917 PMC: 10525631. DOI: 10.3390/biomedicines11092477.

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