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- Author: Steven Shen x
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Department of Urology, Department of Pathology and Laboratory Medicine, Broad Center for Regenerative Medicine and Stem Cell Biology, Transplant Immunology Laboratory, Department of Pathology, Department of Pathology, Department of Pathology, Department of Pathology, The Geriatrics Research Institute, First Affiliated Hospital of Anhui Medical University, Anhui, China
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Department of Urology, Department of Pathology and Laboratory Medicine, Broad Center for Regenerative Medicine and Stem Cell Biology, Transplant Immunology Laboratory, Department of Pathology, Department of Pathology, Department of Pathology, Department of Pathology, The Geriatrics Research Institute, First Affiliated Hospital of Anhui Medical University, Anhui, China
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Department of Urology, Department of Pathology and Laboratory Medicine, Broad Center for Regenerative Medicine and Stem Cell Biology, Transplant Immunology Laboratory, Department of Pathology, Department of Pathology, Department of Pathology, Department of Pathology, The Geriatrics Research Institute, First Affiliated Hospital of Anhui Medical University, Anhui, China
Department of Urology, Department of Pathology and Laboratory Medicine, Broad Center for Regenerative Medicine and Stem Cell Biology, Transplant Immunology Laboratory, Department of Pathology, Department of Pathology, Department of Pathology, Department of Pathology, The Geriatrics Research Institute, First Affiliated Hospital of Anhui Medical University, Anhui, China
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Small cell neuroendocrine carcinoma (SCNC) of the prostate is a variant form of prostate cancer that occurs de novo or as a recurrent tumor in patients who received hormonal therapy for prostatic adenocarcinoma. It is composed of pure neuroendocrine (NE) tumor cells, but unlike the scattered NE cells in benign prostate and adenocarcinoma that are quiescent, the NE cells in SCNC are highly proliferative and aggressive, causing death in months. In this study, we provide evidence that interleukin 8 (IL8)–CXCR2–P53 (TP53) signaling pathway keeps the NE cells of benign prostate and adenocarcinoma in a quiescent state normally. While P53 appears to be wild-type in the NE cells of benign prostate and adenocarcinoma, immunohistochemical studies show that the majority of the NE tumor cells in SCNC are positive for nuclear p53, suggesting that the p53 is mutated. This observation is confirmed by sequencing of genomic DNA showing p53 mutation in five of seven cases of SCNC. Our results support the hypothesis that p53 mutation leads to inactivation of the IL8–CXCR2–p53 signaling pathway, resulting in the loss of an important growth inhibitory mechanism and the hyper-proliferation of NE cells in SCNC. Therefore, we have identified potential cells of origin and a molecular target for prostatic SCNC that are very different from those of conventional adenocarcinoma, which explains SCNC's distinct biology and the clinical observation that it does not respond to hormonal therapy targeting androgen receptor signaling, which produces short-term therapeutic effects in nearly all patients with prostatic adenocarcinoma.
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Multiple endocrine neoplasia type 1 (MEN1) is an autosomal dominant syndrome caused by mutations in the MEN1 tumor suppressor gene. Loss of the functional second copy of the MEN1 gene causes individuals to develop multiple endocrine tumors, primarily affecting the parathyroid, pituitary, and pancreas. While it is clear that the protein encoded by MEN1, menin, suppresses endocrine tumors, its biochemical functions and direct downstream targets remain unclear. Recent studies have suggested that menin may act as a scaffold protein to coordinate gene transcription, and that menin is an oncogenic cofactor for homeobox (HOX) gene expression in hematopoietic cancer. The role of HOX genes in adult cell differentiation is still obscure, but growing evidence suggests that they may play important roles in the development of cancer. Therefore, we hypothesized that specific HOX genes were regulated by menin in parathyroid tumor development. Utilizing quantitative TaqMan RT-PCR, we compared expression profiles of the 39 HOX genes in human familial MEN1 (fMEN1) parathyroid tumors and sporadic parathyroid adenomas with normal samples. We identified a large set of 23 HOX genes whose deregulation is specific for fMEN1 parathyroid tumors, and only 5 HOX genes whose misexpression are specific for sporadic parathyroid tumor development. These findings provide the first evidence that loss of the MEN1 tumor suppressor gene is associated with deregulation of specific HOX gene expression in the development of familial human parathyroid tumors. Our results strongly reinforce the idea that abnormal expression of developmental HOX genes can be critical in human cancer progression.