Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0376358 (prostate cancer)
 59,338 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Inhibin, a predominant secretory protein of prostate has been shown earlier to increase in proliferative prostatic diseases. Since the prostate gland is under the profound influence of androgens, it's withdrawal by orchidectomy is many a time included in the therapy to prostate cancer. Hence it was interesting to study the reflection of long term orchidectomy on prostatic inhibin. With this aim two groups of bilaterally orchidectomised male Sprague-Dawley rats were sacrificed 15 days and 30 days after castration respectively. Another group of rats was administered with testosterone enanthate after 30 days of castration. As protein concentration and weight showed a significant decrease after orchidectomy, inhibin concentrations (estimated by RIA) were expressed per gland. The inhibin concentration was increased to a 5-6 fold higher value after 15 days of castration. While a remarkable 10-15 fold elevation of inhibin concentration was observed in 30 day castrated prostates. Concurrently the circulating inhibin levels were also found to be heightened. All these effects of orchidectomy were almost reversed on androgen administration. Thus in contrast to the decrease in the weight and concentration of other prostatic proteins after orchidectomy, the increase in inhibin appears to be striking.
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PMID:Increased concentration of prostatic inhibin following orchidectomy in rat. 227 63

Using the immunoperoxidase technique, we have studied in normal, hyperplastic and adenocarcinomatous prostates the tissue localization of an abundant 94 amino acid protein secreted by prostatic epithelial cells. In normal and hyperplastic prostates, strong immunoreactivity was found exclusively in glandular epithelial cells. No reaction was observed over the stroma. In well differentiated adenocarcinoma, the acinar cells were generally stained less intensely than in benign prostatic hyperplasia while in poorly differentiated tissue, strongly positive immunoperoxidase staining was found in some cancer cells scattered in the stroma. All prostatic cancer tissues examined (N = 21), with the exception of one, exhibited at least a few positive immunoreactive areas for the 94 amino acid secretory protein. In addition, immunoperoxidase staining was observed in lung and bone marrow metastases respectively in two patients with prostatic carcinoma. All other normal tissues and non-prostatic cancers studied to date were negative. These results suggest that this new marker could be a useful addition to prostatic acid phosphatase and prostate specific antigen.
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PMID:Immunohistochemical localization of a prostatic secretory protein of 94 amino acids in normal prostatic tissue, in primary prostatic tumors and in their metastases. 330 68

Uteroglobin (UG) is a potent immunomodulatory and antiinflammatory secretory protein with high levels detected in human prostate tissue. We used three human prostate cancer cell lines (DU-145, PC3-M, and LNCaP) to test the hypothesis that UG may modulate invasiveness of prostatic carcinoma cells in the Boyden chamber assay for invasion through a reconstituted basement membrane preparation. Fibroblast-conditioned medium was used as the chemoattractant. The most invasive cell line was DU-145, followed by PC3-M, whereas the androgen-dependent LNCaP cell line exhibited extremely low invasive potential. Pretreatment of DU-145 and PC3-M cells for 24 h with 0.01, 0.1, or 1.0 microM recombinant UG had no effect on basal invasiveness but inhibited fibroblast-conditioned medium-stimulated invasion in a dose-dependent manner, reaching up to 60.2 and 87.9% inhibition of DU-145 and PC3-M, respectively. UG had no effect on either cell-reconstituted basement membrane adhesion or simple chemotaxis in the absence of reconstituted basement membrane. UG also strongly inhibited the biphasic release of [14C]-labeled arachidonic acid from fibroblast-conditioned medium-stimulated DU-145 cells. These results suggest that UG may modulate prostate tumor cell invasiveness and that the mechanism may include inhibition of the arachidonic acid signal cascade.
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PMID:Recombinant human uteroglobin inhibits the in vitro invasiveness of human metastatic prostate tumor cells and the release of arachidonic acid stimulated by fibroblast-conditioned medium. 803 85

It is known that estramustine (EM) accumulates in cells at the G2/M-phase and causes metaphase arrest of various cell types. The inhibitory effect is mediated by interaction with microtubule-associated proteins (MAPs) and/or tubulin. Estramustine-binding protein (EMBP) is a secretory protein which has been found in a number of different tumor cells and has been shown to faciliate the uptake of EM into cells. In this study the efficacy of EM in arresting cells at metaphase was studied, using four different human cell lines; the prostatic cancer cell line DU 145, the breast cancer cell line MDA 231, the colon cancer cell line Colon 320, and the urinary bladder cancer cell line RT4. The cells were incubated with EM at a concentration of 10 micrograms/ml for 24 hours. The data reveal an increase in metaphase arrests in the DU 145 and in Colon 320 cell lines. Both of these cell lines were found to contain high amounts of EMBP using a dot-blot assay. The other two cell lines, MDA 231 and RT4 had undetectable intracellular amounts of the protein and exhibited a low increase in metaphase arrests. The cell lines were analysed regarding S-phase fraction with flow-cytometry (FCM) to exclude the growth rate of the cells as a limiting factor. The results from the FCM confirmed the cytogenic analysis, that is a higher percentage of cells were in the G2/M phase in both the DU 145 and Colon 320 cell line compared to MDA 231 and RT4. EM causes mitotic arrest in those cell lines that contain detectable amounts of EMBP.
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PMID:Estramustine-binding protein (EMBP) content in four different cell lines and its correlation to estramustine induced metaphase arrest. 871 6

Prostate secretory protein of 94 amino acids (PSP94) has shown the potential to be a diagnostic biomarker and a therapeutic agent for prostate cancer. Primates have been the main animal models for studying the biology of this molecule. We have cloned and analyzed the cDNA and promoter region of PSP94 from baboon (Papio anubis). Sequence divergence among baboon, monkey, pig, and human, in both the exons and 5'-flanking region indicates rapid evolution of the PSP94 gene. There are conserved steroid hormone response elements (SHRE) in the promoter region of all three primate species. Multiple, alternative transcripts starting near these SHREs and upstream to the TATA box were identified by reverse transcriptase polymerase chain reaction (RT-PCR) and rapid amplification of 5'-cDNA ends (5' RACE) in primate prostatic tissues. This differential transcription initiation may be linked to androgen regulation of PSP94 gene expression. PSP94 transcripts were detected by RT-PCR in a wide variety of mucus-secreting tissues. However, the alternative transcripts were found only in the prostate. The distribution of the PSP94 protein in baboon secretory tissues was also examined by Western blot analysis using a polyclonal antibody against the human homolog. A positive immunoreactive band was detected, but it was weak, due probably to epitope divergence between the two species. In all young, healthy primate animals tested, the level of immunoreactive PSP94 in prostate tissues was lower than expected. In addition, RT-PCR combined with Southern blot analysis on prostate tissues in these animals failed to detect the PSP57 mRNA produced by alternative splicing of PSP94 primary transcript. These observations can be explained by the sexual immaturity and incomplete prostate development in these young primates. This explanation was supported by histological examination of their prostate during PSP94 immunohistochemistry.
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PMID:Molecular cloning and gene expression analysis of PSP94 (prostate secretory protein of 94 amino acids) in primates. 917 67

We have shown previously that the secretory protein uteroglobin (UG) is highly expressed in normal human prostate tissue but this expression is either lost or altered in human prostate cancer cell lines. Treatment of these cell lines with recombinant human UG inhibits their ability to invade human reconstituted basement membrane by up to 90%, implying that the loss of normal UG expression may be related to the invasive potential of prostate cancer. Because invasion represents a critical step in metastasis, the expression patterns of UG could provide a unique and relevant indicator of cancer progression. In this study, we present the immunohistochemical analyses of fresh frozen prostate tissues from surgical specimens taken from 50 patients. Eight slides per patient were analyzed for UG staining. Slides from 26 patients showed evidence of prostate cancer, whereas slides from the remaining 24 patients showed only benign glands. The results demonstrate UG immunoreactivity in normal prostate, benign prostatic hyperplasia, and prostatic atrophy; low but clearly positive expression in prostatic intraepithelial neoplasia; positive expression in cancerous glands of Gleason's pattern </=2; and complete loss of UG immunoreactivity in cancerous glands of Gleason's pattern 3 or greater. In addition, in the one case of metastatic prostate cancer that we examined, the prostate cancer cells within the lymph node lacked UG expression. These findings suggest that the loss of UG expression may be an indicator of prostate cancer progression and possibly a component of the molecular natural history of prostate cancer, which may have prognostic value.
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PMID:Loss of uteroglobin expression in prostate cancer: relationship to advancing grade. 981 27

In aging men, the prostate gland becomes hyperproliferative and displays a propensity toward carcinoma. Although this hyperproliferative process has been proposed to represent an inappropriate reactivation of an embryonic differentiation program, the regulatory genes responsible for normal prostate development and function are largely undefined. Here we show that the murine Nkx3.1 homeobox gene is the earliest known marker of prostate epithelium during embryogenesis and is subsequently expressed at all stages of prostate differentiation in vivo as well as in tissue recombinants. A null mutation for Nkx3.1 obtained by targeted gene disruption results in defects in prostate ductal morphogenesis and secretory protein production. Notably, Nkx3.1 mutant mice display prostatic epithelial hyperplasia and dysplasia that increases in severity with age. This epithelial hyperplasia and dysplasia also occurs in heterozygous mice, indicating haploinsufficiency for this phenotype. Because human NKX3.1 is known to map to a prostate cancer hot spot, we propose that NKX3.1 is a prostate-specific tumor suppressor gene and that loss of a single allele may predispose to prostate carcinogenesis. The Nkx3.1 mutant mice provide a unique animal model for examining the relationship between normal prostate differentiation and early stages of prostate carcinogenesis.
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PMID:Roles for Nkx3.1 in prostate development and cancer. 1021 24

Prostate secretory protein (PSP94, 94 amino acids) is one of the most abundant proteins secreted from the prostate. Its biological role is unknown and still controversial, although it is assumed to have the potential to be a biomarker and a suppressor of prostate cancer. In order to establish an animal model to further elucidate its biological role, we expressed the mature form of rat PSP94 in Escherichia coli, using a glutathione S-transferase (GST) fusion expression vector; we generated a polyclonal rabbit antibody against the recombinant protein. The antibody specifically recognized recombinant rat PSP94 and cross-reacted only very weakly with its human homologue. Using the characterized anti-rat PSP94 antibody, we found that PSP94 was located primarily in rat prostate. Furthermore, PSP94 is present at different levels in different lobes of rat prostate, with significant levels detectable only in the lateral lobe (LP). In addition, the most abundant PSP94 expression was found in the prostate lobe secretions, and PSP94 levels in LP secretions were at least seven times higher than in secretions from the dorsal prostate (DP). The rat ventral prostate (VP) and other regions of the male accessory glands were found to be almost completely devoid of PSP94. Since most rat prostate dysplasia induced by steroid hormone treatment occurs only in dorsolateral prostate, prostate tissue-specific expression and the expression of PSP94 in dorsolateral, but not other, lobes of the prostate suggest a potential role in prostate targeting and prostate cancer development.
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PMID:Differential expression of PSP94 in rat prostate lobes as demonstrated by an antibody against recombinant GST-PSP94. 1041 42

Electronic profiling of publicly available expressed sequence tag databases identified a gene, cysteine-rich secretoryprotein-3 (CRISP-3), that is up-regulated in prostate cancer, and of which the expression is relatively prostate-specific. The objective of this study was to examine the potential of CRISP-3 as a biomarker for prostate cancer. In transient transfection studies, CRISP-3 was found to be a secretory protein. Using a multiple tissue dot blot experiment, CRISP-3 transcript was identified in a limited number of human tissues including the prostate. In situ hybridization experiments indicated that CRISP-3 mRNA is epithelial-specific and is up-regulated in prostate adenocarcinoma compared with benign prostate tissue. CRISP-3 mRNA overexpression in cancer was confirmed using quantitative real-time reverse-transcription-PCR using benign prostatic epithelia and adenocarcinoma (in 5 of 5 cases) isolated by laser capture microdissection, as well as bulk tissues (in 20 of 23 cases) from surgically resected human prostates. These findings suggest that CRISP-3 is a potential biomarker for prostate cancer.
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PMID:Cysteine-rich secretory protein-3: a potential biomarker for prostate cancer. 1243 21

Currently, there are very few diagnostic or therapeutic strategies targeted at controlling tumor growth and progression towards metastasis. Uteroglobin (UG) is a naturally occurring, small, stable, secretory protein that is normally expressed by most cells of epithelial origin but is known to be lost during the progression of prostate, lung, and uterine cancers to invasive malignancy. Uteroglobin -/- knockout mice appear to be extremely cancer prone. Both pharmacological and transgenic reconstitution of recombinant human UG (rhUG) to prostate, lung, and endometrial tumor cell lines markedly inhibits their invasiveness and antagonizes the neoplastic phenotype. In preliminary studies, rhUG inhibited angiogenesis in the ex vivo rat aorta model and showed antitumor activity against human prostate tumor cells (PC-3) in the chick chorioallantoic membrane assay, reducing both tumor volume and vascularity. A recent in vivo pilot study showed that twice daily dosing with rhUG resulted in a statistically significant increase in survival without evidence of toxicity in severe combined immunodeficient mice challenged with a PC-3 cell metastasizing tumor. Thus, rhUG may slow the progression of cancer by inhibiting both tumor cell invasiveness and tumor angiogenesis. It therefore holds the potential to serve as a new weapon in the arsenal of cytostatic, antimetastatic, adjuvant treatment for cancer. In this paper, we will briefly discuss the therapeutic potential of uteroglobin-based strategies for managing prostate cancer.
Clin Prostate Cancer 2002 Sep
PMID:Uteroglobin: a potential novel tumor suppressor and molecular therapeutic for prostate cancer. 1504 3


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