Aberrant neuroendocrine signaling is frequent yet poorly understood feature of prostate cancers. Membrane metalloendopeptidase (MME) is responsible for the catalytic inactivation of neuropeptide substrates, and is downregulated in nearly 50% of prostate cancers. However its role in prostate carcinogenesis, including formation of castration-resistant prostate carcinomas, remains uncertain. Here we report that MME cooperates with PTEN in suppression of carcinogenesis by controlling activities of prostate stem/progenitor cells. Lack of MME and PTEN results in development of adenocarcinomas characterized by propensity for vascular invasion and formation of proliferative neuroendocrine clusters after castration. Effects of MME on prostate stem/progenitor cells depend on its catalytic activity and can be recapitulated by addition of the MME substrate, gastrin-releasing peptide (GRP). Knockdown or inhibition of GRP receptor (GRPR) abrogate effects of MME deficiency and delay growth of human prostate cancer xenografts by reducing the number of cancer-propagating cells. In sum, our study provides a definitive proof of tumor-suppressive role of MME, links GRP/GRPR signaling to the control of prostate stem/progenitor cells, and shows how dysregulation of such signaling may promote formation of castration-resistant prostate carcinomas. It also identifies GRPR as a valuable target for therapies aimed at eradication of cancer-propagating cells in prostate cancers with MME downregulation.
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| http://dx.doi.org/10.1038/s41389-020-0222-3 | DOI Listing |
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