Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0153690 (bone metastases)
 6,382 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Prostate specific membrane antigen (PSMA) is a folate gamma glutamyl carboxypeptidase that is oriented on the plasma membrane of normal and prostate cancer cells. A cytosolic version of PSMA, PSM', results from alternative splicing of the PSMA gene. Two additional alternatively spliced variants of PSMA, PSM-C and PSM-D, have been described recently. The ratio of PSMA to PSM' mRNA was higher in a small number of prostate cancer specimens compared to normal prostate cancer and benign prostatic hypertrophy (Su et al. Cancer Res 1995;55:1441). The intent of our study was to measure the gene expression of PSMA and the 3 PSMA splice variants in a large number of patient's tissues. A real-time, quantitative PCR assay was developed to quantify PSMA, PSM', PSM-C and PSM-D. Discrimination among the variants was achieved by designing unique primers and TaqMan probes for each gene. Amplification and detection was specific for the desired splice variant and was sensitive to one gene copy per reaction. The assay was used to quantify the gene expression in specimens of normal, benign, primary and metastatic prostate cancer from 72 patients. The mean PSMA expression (relative to 18S rRNA) was 2- to 3-fold lower in normal prostate (n = 4) compared to primary (n = 55, p = 0.31) and metastatic (n = 20, p = 0.33) prostate cancer. There was no difference in the PSMA expression between benign and cancerous prostate tissue from the same patients (n = 35). The ratio of PSMA to PSM' was lowest in the normal prostate and increased with increasing Gleason score (p < 0.001). The increased ratio in these tissues was a reflection of both increasing PSMA levels and decreasing PSM' mRNA. The expression of PSM-C did not differ in any of the tissue categories studied. The expression of PSM-D was similar in normal and primary prostate cancer but was 2-fold higher in lymph node (p < 0.005) and bone metastases (p < 0.05) compared to the primary tumors. Our results of the first detailed quantitative analysis of PSMA mRNA expression in patient's tissues demonstrate that PSMA and the 3 PSMA splice variants are expressed in normal, benign, cancerous and metastatic prostate cancer. We note increased PSMA expression in some malignant tissues, however, these increases are modest in magnitude. We also report that the expression of a novel splice variant, PSM-D, is elevated in prostate cancer metastases.
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PMID:Expression of prostate specific membrane antigen and three alternatively spliced variants of PSMA in prostate cancer patients. 1294 15

ErbB3 is a transmembrane growth factor receptor that has been implicated in the pathogenesis of human cancer. After finding that a truncated form of ErbB3 was present and upregulated in metastatic prostate cancer cells in lymph nodes and bone, we explored the pathophysiological functions of this unusual form of ErbB3 in the context of mouse calvaria as well as osteoblasts in vitro and the femur microenvironment in vivo. Here we demonstrate that prostate cancer cells expressed an alternatively spliced transcript that encodes a 45-kDa glycosylated protein (p45-sErbB3). The recombinant p45-sErbB3 purified from conditioned medium stimulated calvarial bone formation and induced osteoblast differentiation. Overexpression of p45-sErbB3 in the osteolytic prostate cancer cell line PC-3 converted its phenotype from bone lysing to bone forming upon injection into the femurs of immunodeficient mice. Further, we detected sErbB3 in plasma samples from patients with castration-resistant prostate cancer with bone metastasis. These observations establish that p45-sErbB3 is a structurally and functionally unique gene product of ErbB3 and suggest that p45-sErbB3 is likely one of the factors involved in the osteoblastic bone metastases of prostate cancer.
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PMID:A 45-kDa ErbB3 secreted by prostate cancer cells promotes bone formation. 1849 Sep 22