Previous reports showed that PCPH is mutated or deregulated in some human tumors, suggesting its participation in malignant progression. Immunohistochemical analyses showed that PCPH is not expressed in normal prostate, but its expression increases along cancer progression stages, being detectable in benign prostatic hyperplasia, highly expressed in prostatic intraepithelial neoplasia, and remaining at high levels in prostate carcinoma. Experiments designed to investigate the contribution of PCPH to the malignant phenotype of prostate cancer cells showed that PCPH overexpression in PC-3 cells, which express nearly undetectable PCPH levels, increased collagen I expression and enhanced invasiveness, whereas shRNA-mediated PCPH knockdown in LNCaP cells, which express high PCPH levels, down-regulated collagen I expression and decreased invasiveness. PCPH regulated invasiveness and collagen I expression by a mechanism involving protein kinase Cδ (PKCδ): (a) PCPH knockdown in LNCaP cells decreased PKCδ levels relative to control cells; (b) PKCδ knockdown in LNCaP cells recapitulated all changes caused by PCPH knockdown; and (c) forced expression of PKCδ in cells with knocked down PCPH reverted all changes provoked by PCPH down-regulation and rescued the original phenotype of LNCaP cells. These results strongly suggested that the expression level and/or mutational status of PCPH contributes to determine the invasiveness of prostate cancer cells through a mechanism involving PKCδ. Data from immunohistochemical analyses in serial sections of normal, premalignant, and malignant prostate specimens underscored the clinical significance of our findings by showing remarkably similar patterns of expression for PCPH and PKCδ, thus strongly suggesting their likely coregulation in human tumors. ©2007 American Association for Cancer Research.
CITATION STYLE
Villar, J., Arenas, M. I., MacCarthy, C. M., Blánquez, M. J., Tirado, O. M., & Notario, V. (2007). PCPH/ENTPD5 expression enhances the invasiveness of human prostate cancer cells by a protein kinase Cδ-dependent mechanism. Cancer Research, 67(22), 10859–10868. https://doi.org/10.1158/0008-5472.CAN-07-2041
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