Modulation of prostate carcinoma cell growth and apoptosis by chromogranin A.

Abstract

We elucidated the effect and possible pathways of chromogranin A in regulating prostatic cancer cell growth. Chromogranin A expression in prostatic cancer cell lines were detected with immunofluorescence flow cytometry (FCM) and the inhibition of cell growth due to chromogranin A antibody was measured using microculture tetrazolium. Cell cycle and RNA changes were evaluated with acridine orange FCM. Intracellular chromogranin A variations were detected with FCM, as were apoptotic changes, p53, Fas and tumor necrosis factor-alpha. Apoptosis and caspase-3 expression of tumor cells was assessed with dual immunohistochemical staining. Increased chromogranin A expression was observed in PC-3, DU145 and LNCap cells independent of hormone dependence. Dose and time dependent growth inhibition occurred at 12 hours. Chromogranin A antibody arrested PC3 cells in the S-phase immediately after treatment. The number of G0/G1 and G2/M cells subsequently decreased. PC3 tumor cells had transiently increased RNA at 12 hours with a marked decrease at 48 hours. Decreasing chromogranin A expression started at 12 hours and was most prominent at 48 hours. Apoptotic cells markedly increased at 12 hours with an increase in p53, Fas and tumor necrosis factor-alpha (Fas more than the others). Increased apoptotic cell and caspase-3 expression was observed on immunohistochemical stains. Chromogranin A is an important neuropeptide regulating the growth of prostate cancer cells. Specific antibodies can suppress its function through apoptotic pathways (Fas and caspase-3), leading to programmed cell death. Chromogranin A antibody mediated apoptosis may be a specific alternative treatment for prostate cancer.