UMLS:C0596263 - FACTA Search

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Query: UMLS:C0596263 (carcinogenesis)
64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Prostate stem cell antigen (PSCA) is a member of the LY-6 family of surface proteins that is overexpressed in prostate cancer. Using serial analysis of gene expression (SAGE), we identified PSCA as one of the most abundant transcripts in a differentiated urothelial tumor. As assessed by Northern blotting, PSCA is highly expressed in normal urothelium and noninvasive urothelial tumors. In contrast to the previously reported overexpression of PSCA in progressive and invasive forms of prostate cancer, we found a markedly reduced expression in undifferentiated bladder carcinoma. In addition, several aberrant splicing products derived from the PSCA gene were found in urothelial tumors. Furthermore, PSCA mRNA was highly abundant in normal esophagus and stomach, but was undetectable in esophageal or gastric tumors. The PSCA expression appeared to depend on cell contact, since mRNA levels were increased when RT112 bladder carcinoma cells were grown to confluence. Our data suggest that PSCA could serve as a potential marker for the early carcinogenesis in urothelial and gastric tissues and that its expression is specific for epithelial cells.
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PMID:Reduced expression of PSCA, a member of the LY-6 family of cell surface antigens, in bladder, esophagus, and stomach tumors. 1097 99

Prostate stem cell antigen (PSCA) is a GPI-anchored membrane protein whose expression is reportedly up-regulated in a majority of human prostate cancers, including advanced stages and metastases. In this study, we investigate the expression pattern of the murine orthologue of PSCA by in situ hybridization in fetal and adult mouse tissues. Murine PSCA is expressed during fetal development in the urogenital sinus, skin, and gastrointestinal tract. The expression in these tissues is restricted to the most superficial cell layer. In the adult mouse, expression is highest in the mucosal lining of the urinary tract. In the normal adult prostate, expression of PSCA is detected exclusively in the secretory epithelium. Examination of PSCA during carcinogenesis of the murine prostate in the transgenic adenocarcinoma of the mouse prostate model showed a markedly increased expression in areas of neoplasia. The transgenic adenocarcinoma of the mouse prostate model may represent a valuable model for the study of PSCA as a potential target for immunotherapy of prostate cancer, despite potential differences in the pattern of expression between mice and humans.
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PMID:Selective expression of murine prostate stem cell antigen in fetal and adult tissues and the transgenic adenocarcinoma of the mouse prostate model of prostate carcinogenesis. 1123 29

The prostate gland undergoes dramatic changes in growth status during normal physiologic development, following androgen administration to castrate animals, and during tumor development. The prostate stem cell antigen (PSCA, named for its strong sequence homology to the thymocyte marker stem cell antigen 2) is a cell surface molecule associated with human and murine prostate cancer. To help define the regulation of this molecule, we created a transgenic mouse strain, which uses the human PSCA promoter region to control the expression of enhanced green fluorescent protein (GFP). Expression of GFP was detected in mid-gestation following the appearance of prostatic buds from the urogenital sinus. In adult mice, GFP expression was restricted to a subset of cells located in the distal tips of the glands. GFP expression increased during puberty and regeneration driven by androgen and associated with expansive growth of the prostate. GFP-positive cells coexpressed markers associated with both basal and secretory cells in the human prostate. Prostate carcinogenesis driven by T antigen in the transgenic adenocarcinoma of the mouse prostate (TRAMP) model results in an increased percentage and intensity level for PSCA promoter-driven GFP-positive cells. This transgenic system helps define the range of cellular changes associated with altered expression of PSCA, shows that transcriptional control is a major component regulating PSCA levels, and provides a useful tool to study subpopulations of prostate epithelial cells and factors that regulate the PSCA promoter.
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PMID:Growth, regeneration, and tumorigenesis of the prostate activates the PSCA promoter. 1175 98

Research into molecular and genetic mechanisms underlying prostate carcinogenesis would be greatly advanced by in vitro models of prostate tumors representing primary tumors. We have successfully established an immortalized human prostate epithelial (HPE) cell culture derived from a primary tumor with telomerase. The actively proliferating early passaged RC-58T cells were transduced through infection with a retrovirus vector expressing the human telomerase catalytic subunit (hTERT). A high level of telomerase was detected in RC-58T/hTERT cells but not RC-58T cells. RC-58T/hTERT cells are currently growing well at passage 50, whereas RC-58T cells senesced at passage 7. RC-58T/hTERT cells exhibit transformed morphology. More importantly, these immortalized cells showed anchorage-independent growth as they formed colonies in soft agar and grew above the agar layer. Expression of androgen-regulated prostate specific gene NKX3.1 and epithelial specific cytokeratin 8 (CK8) but not prostate specific antigen (PSA) and androgen receptor was detected in RC-58T/hTERT cells. Prostate stem cell antigen (PSCA) and p16 were also expressed in this cell line. RC-58T/hTERT cells showed growth inhibition when exposed to retinoic acid and transforming growth factor (TGF)-beta1 known potent inhibitors of prostate epithelial cell growth. A number of chromosome alterations were observed including the loss of chromosomes Y, 3p, 10p, 17p, 18q and the gain of chromosomes 16 and 20. These results demonstrate that this primary tumor-derived HPE cell line retained its transformed phenotypes and should allow studies to elucidate molecular and genetic alterations involved in prostate cancer. This is the first documented case of an established human prostate cancer cell line from a primary tumor of a prostate cancer patient with telomerase.
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PMID:A novel human cancer culture model for the study of prostate cancer. 1175 87

Prostate stem cell antigen (PSCA, named for its strong sequence homology to the thymocyte marker stem cell antigen 2) is a cell surface antigen expressed in normal prostate and associated with human and murine prostate cancer. To begin to investigate a possible link between PSCA expression in normal prostate and prostate carcinogenesis, we characterized the phenotype and proliferative behavior of normal PSCA-expressing prostate epithelial cells (PrEC) in tissue culture. PSCA was expressed in a subset of prostate epithelial cells that coexpress basal and secretory cytokeratins. PSCA-positive cells were the direct progeny of PSCA-negative cells and were characterized by a more differentiated morphology and a slower proliferative rate than PSCA-negative cells. Although PSCA-positive cells continued to express basal cell markers such as CD44, they lost expression of the basal cell marker p63. In contrast, expression of prostate specific antigen and androgen receptor transcripts was detectable in PSCA-positive PrEC. These findings suggest that PSCA is a unique marker of an intermediate subpopulation of PrEC in transition from a basal to a terminally differentiated secretory phenotype and may be a useful marker for the study of normal and malignant prostate development.
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PMID:Prostate stem cell antigen is a marker of late intermediate prostate epithelial cells. 1249 58

Research into molecular and genetic mechanisms underlying prostate carcinogenesis would be greatly advanced by in vitro models of prostate tumors representing primary tumors. The generation of immortalized primary prostate cancer cells that will accurately reflect the in situ characteristics of malignant epithelium is greatly needed. We have successfully established a neoplastic immortalized human prostate epithelial (HPE) cell culture derived from a primary tumor. The RC-9 cells transduced through infection with a retrovirus vector expressing the E6 and E7 genes (E6E7) of human papilloma virus-16 (HPV-16) are currently growing well at passage 40, whereas RC-9 cells senesced at passage 7. RC-9/E6E7 cells exhibit epithelial morphology and high level of telomerase activity. More importantly, these immortalized cells produced tumors (SCID5038D) when inoculated into SCID mice. RC-9/E6E7 cells and SCID-5038D cells exhibit a high level of telomerase activity and androgen-responsiveness when treated with R1881. Expression of prostate specific antigen (PSA), androgen receptor (AR), prostate stem cell antigen (PSCA), an androgen-regulated prostate specific gene (NKX3.1), p16, cytokeratins 8, 15 and HPV-16 E6 gene was detected in both of these cells. RC-9/E6E7 and SCID5038D cells also showed growth inhibition when exposed to retinoic acid and transforming growth factor (TGF)-beta1, potent inhibitors of prostate epithelial cell growth. A number of chromosome alterations were observed including the loss of chromosomes 2p, 3p, 8p, 13, 14, 16, 17, 18, 21 and the gain of 7 and 20 in the tumor cell line (SCID5038D). These results demonstrate that this primary tumor-derived HPE cell line retained its neoplastic phenotypes and its prostate-specific markers and should allow studies to elucidate molecular and genetic alterations involved in prostate cancer. This is the first documented case of a malignant AR and PSA positive established human prostate cancer cell line from a primary tumor of a prostate cancer patient.
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PMID:A novel neoplastic primary tumor-derived human prostate epithelial cell line. 1273 99

Understanding of molecular genetic mechanisms underlying prostate carcinogenesis would be greatly advanced by in vitro models of prostate tumors representing primary tumors. We have successfully established a neoplastic immortalized human prostate epithelial (HPE) clonal culture derived from a primary tumor of a prostate cancer patient (RC-58T) with hTERT, the catalytic subunit of telomerase. The early passage RC-58T cells derived from a radical prostatectomy specimen of a 52-year-old white male patient was transduced through infection with a retrovirus vector expressing the hTERT for the establishment of the RC-58T/hTERT cell line. One clonal line, soft-agar derived from the RC-58T/hTERT cell line, was isolated and further characterized phenotypically and genetically. These clonal (RC-58T/hTERT SA#4) cells are currently growing well at passage 70 and exhibit transformed morphology. The RC-58T/hTERT SA#4 line expressed a high level of telomerase activity and showed anchorage-independent growth in soft agar. The clonal line like the untransduced RC-58T cells (passage 3) expressed prostate specific antigen (PSA), androgen receptor (AR), prostate stem cell antigen (PSCA), and an androgen-regulated prostate specific gene NKX3.1, P16, and cytokeratin (CK) 8. Growth is slightly stimulated by dihydrotestosterone (DHT), and lyates are immunoreactive with AR antibody by Western blot analysis. More importantly, this clonal line produced adenocarcinomas when transplanted into SCID mice. A number of chromosome alterations were observed including the loss of chromosome Y, 1q, 2p, 3p, 4q, 8p, 11p, 14p, 17p and 18q. Our results demonstrate that this primary tumor-derived HPE cell line retained its neoplastic phenotypes and its prostate specific markers and should allow elucidating molecular and genetic alterations involved in prostate cancer. This is the first documented case of an AR and PSA expressing telomerase established human prostate cancer cell line with neoplastic phenotypes from a primary tumor of a prostate cancer patient.
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PMID:A telomerase-immortalized primary human prostate cancer clonal cell line with neoplastic phenotypes. 1537 56

Most pancreatic neoplasia are of ductal lineage, characterized by tubule (gland), cyst, papilla, or mucin formation and expression of mucin-related glycoproteins and oncoproteins (eg, MUC1, CA19-9, CEA, DUPAN), as well as some subsets of cytokeratin (eg, CK19). Mutations of k-ras oncogene and DPC4 are also common in ductal neoplasia and generally not seen in nonductal tumors. A variety of pancreatic neoplasia fall under the heading of ductal neoplasia. Invasive ductal adenocarcinoma (DA) is the most important and constitutes the vast majority (>85%) of pancreatic tumors. DA is characterized by insidious infiltration and rapid dissemination, despite its relatively well-differentiated histologic appearance. In some variants of DA such as undifferentiated or sarcomatoid, evidence of ductal differentiation may be lacking or only focal. The presumed precursors of DA are microscopic intraductal proliferative changes that are now termed pancreatic intraepithelial neoplasia (PanIN). PanINs comprise a neoplastic transformation ranging from early mucinous change (PanIN-1A) to frank CIS (PanIN-3). A similar (in situ) neoplastic spectrum also characterizes intraductal papillary mucinous neoplasms and mucinous cystic neoplasms, which are cystic ductal-mucinous tumors with varying degrees of papilla formation, and may be associated with invasive carcinoma. As such, these can be regarded as mass-forming preinvasive neoplasia. Some intraductal papillary mucinous neoplasms are associated with invasive carcinoma of the colloid type. Colloid carcinoma of the pancreas appears to be a clinicopathologically distinct tumor with indolent behavior. Whereas most ductal pancreatic neoplasia are characterized by some degree of mucin formation, serous tumors, of which serous (microcystic) adenoma is the sole example, lack mucin formation, presumably because they recapitulate centroacinar ducts. They are typically benign tumors. It is recognized now that pancreatic carcinoma, like other malignant processes, is a genetic disease produced by progressive mutations in cancer-related genes. These alterations can be categorized as "early" such as k-ras mutation, HER-2/neu, PSCA, MUC5, and fascin overexpression; "intermediate" such as p16 inactivation, MUC1, and cyclin D1 overexpression; and finally as "late" such as p53 and DPC4 inactivation, BRCA2 mutation, and overexpression of ki-67, 14-3-3sigma, and mesothelin. Ductal neoplasia is the most important category among pancreatic tumors. It is important to appreciate the different types of ductal tumors because they vary greatly in their clinicopathologic characteristics and prognosis. Understanding the molecular mechanisms of ductal carcinogenesis will help develop more efficient prevention and therapy of these tumors.
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PMID:Ductal neoplasia of the pancreas: nosologic, clinicopathologic, and biologic aspects. 1618 79

A genome-wide association study on diffuse-type gastric cancer identified the PSCA gene, whose exact function in the gastric epithelium has been unknown. Immunohistochemical analysis revealed that PSCA is expressed in the region in which gastric epithelial stem cells and precursors are considered to reside. Moreover, the PSCA was downregulated in gastric cancer tissues, and its product showed a cell-growth inhibition activity in vitro. We also identified a functional SNP, the risk allele of which suppressed a promoter activity of the PSCA gene. These findings suggest that the PSCA may contribute to carcinogenesis through the cell-growth regulation of the gastric epithelial precursors. The summary statistics of the 2-stage genome scan is available from a database, GeMDBJ (http://gemdbj.nibio.go.jp/).
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PMID:[Genome-wide association study of gastric cancer and GeMDBJ database]. 1950 19

Recently, two genome-wide association studies identified a significant association between the prostate stem cell antigen (PSCA) rs2294008 (C>T) polymorphism and risk of diffuse-type of gastric cancer in Asians and bladder cancer in Caucasians, respectively. PSCA has been reported highly expressed in bladder cancer and been considered as a useful marker for diagnosis and progression of bladder cancer. To determine whether rs2294008 polymorphism is associated with risk of bladder cancer in Chinese populations, we conducted a hospital-based case-control study of 581 cases and 580 controls. Sixteen normal bladder tissues adjacent to tumors were used to evaluate the functionality of this polymorphism. We genotyped the rs2294008 polymorphism and assessed its association with risk of bladder cancer and messenger RNA (mRNA) expression in normal bladder tissues. A significant increased risk of bladder cancer was found for rs2294008 CT/TT genotypes (adjusted odds ratio, 1.38; 95% confidence interval, 1.09-1.75) compared with the CC genotype. Furthermore, analysis of PSCA mRNA expression identified a clear correlation of rs2294008 with expression levels of PSCA mRNA. These results indicated that the rs2294008 polymorphism of PSCA gene may play a role in bladder cancer carcinogenesis and it could be served as a biomarker for genetic susceptibility to bladder cancer in Chinese populations.
Carcinogenesis 2010 Apr
PMID:Genetic variation in PSCA and bladder cancer susceptibility in a Chinese population. 2008 43

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