UMLS:C0376358 - FACTA Search

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Query: UMLS:C0376358 (prostate cancer)
59,338 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We examined expression of prostate-specific membrane antigen (PSM) mRNA in normal prostate using reverse transcription-PCR and sequencing. An alternatively spliced variant, PSM', along with the previously described PSM form, was found in normal prostate. PSM' cDNA is shorter (2387 nucleotides) than PSM (2653 nucleotides). The cDNAs are identical except for a 266-nucleotide region near the 5' end of PSM cDNA (nucleotide 114-380) that is absent from PSM'. This deleted region includes the translation initiation codon and codons for the putative transmembrane domain of PSM. Thus, PSM' RNA codes for a protein that has no apparent signal sequence. We verified the existence of spliced mRNA variants in human primary tissue specimens by RNase protection assay. In LNCaP human prostatic cancer cells and in primary prostate tumors, PSM is the dominant form. In contrast, normal human prostate expressed more PSM' than PSM. Benign prostatic hypertrophy samples showed about equal expression of both variants. We quantified the relative expression of each variant by densitometry and compiled a tumor index, which is the ratio of PSM:PSM' level. LNCaP has an index ranging from 9-11, carcinoma of the prostate from 3-6, benign prostatic hypertrophy from 0.75-1.6, and normal prostate from 0.075-0.45. The index reflects the increased expression of PSM over PSM' following the progression from normal to tumor state. This tumor index may be a useful indicator for the measurement of tumor progression. PSM and PSM' may be functionally different proteins as a result of differences in structure or cellular location. We are investigating the prevalence of one form over the other and how it may influence tumor progression.
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PMID:Alternatively spliced variants of prostate-specific membrane antigen RNA: ratio of expression as a potential measurement of progression. 788 49

The prostate gland contains neuroendocrine cells and amidated neuroendocrine peptides whose presence has been related to aggressive forms of prostate cancer. The enzyme peptidylglycine alpha-amidating monooxygenase (PAM) is critical to the bio-synthesis of amidated peptides and is commonly present in neuroendocrine cells. By northern blot hybridization analysis, PAM mRNA was detected in similar quantities in dorsolateral and ventral prostates of 3-month-old and 13-month-old rats. Multiple forms of PAM mRNA were present whose size distribution was more similar to PAM mRNAs found in pituitary than atrium. Alternative splice sites in PAM mRNA were investigated by reverse-transcriptase polymerase chain reaction. Similar alternatively spliced forms of PAM mRNA were found in both prostate lobes, pituitary, and atrium. However, the distribution of forms in the prostate most resembled that of pituitary. Multiple forms of PAM mRNA are present in prostate and may serve as markers of neuroendocrine differentiation.
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PMID:Expression and processing of peptidylglycine alpha-amidating monooxygenase messenger RNA in rat prostate. 870 Jul 99

Recently, the cDNA encoding a novel candidate for prostate cancer-specific antigen, named prostate-specific membrane antigen (PSM), was cloned from the LNCaP prostate cancer cell line (R. S. Israeli, C. T. Powell, W. R. Fair, and W. D. W. Heston, Cancer Res., 53: 227-230,1993). More recently, they also identified an alternatively spliced variant of PSM in normal prostate tissues (S. L. Su, I-P. Huang, W. R. Fair, C. T. Powell, and W. D. W. Heston, Cancer Res., 55: 1441-1443, 1995). The cDNA of this variant, named PSM', lacks 266 nucleotides present in PSM cDNA, so the transcripts derived from this particular nucleotide sequence can be regarded as PSM-specific transcripts. In this study, we investigated the expression of PSM-specific transcripts in 15 specimens of prostate cancer obtained by needle biopsy using in situ hybridization with a newly developed RNA probe. PSM-specific transcripts were detected in most of the carcinoma cells in all of the specimens examined, and the level of expression was higher in carcinoma cells from hormone-refractory patients than in the cells of those who showed a good response to hormonal therapy. In addition, increased expression of PSM-specific transcripts was also associated with an increased Gleason score. In the normal prostate, on the other hand, PSM-specific transcripts were limited to the basal cells of the prostate glands. These results clearly show that expression of PSM-specific transcripts is closely associated with malignant transformation of the prostate; thus, in situ hybridization for detection of the transcripts is useful for the diagnosis of prostate cancer.
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PMID:Enhanced expression of prostate-specific membrane antigen gene in prostate cancer as revealed by in situ hybridization. 919

A variety of studies suggest that the FHIT gene, which encompasses the fragile site at 3p14.2, is a candidate tumor suppressor gene in several forms of human cancer. To determine whether the FHIT gene is altered in prostate carcinomas, we examined 15 prostate tumors, four normal prostate tissue specimens and RNA from a pool of 62 normal human prostate tissues (Clontech) for the integrity of FHIT transcripts, using a robust single-stage PCR and a nested PCR method. In each case a major FHIT-specific full-length product was observed. Additional aberrantly sized products, which were more numerous in the nested PCR strategy, were present at a far lower level than the full-length transcripts in 14 of 15 tumors, three of four normal human prostate tissues and in the pooled normal prostate RNA. Sequence analysis revealed that these aberrant products corresponded to alternatively spliced FHIT transcripts, which were neither more numerous nor more prominent in the tumors than in the normal prostate specimens. Deletion at the FHIT locus was also evaluated by using three intragenic polymorphic markers (D13S1481, D3S1300, and D3S1234). Allelic loss was observed in two tumors, but these genomic alterations did not correspond to the aberrant FHIT transcripts. DNA analysis, furthermore, suggested that the tumor heterogeneity was not a likely explanation for presence of normal and alternatively spliced FHIT transcripts in the prostate tumors. In conclusion, we detected neither frequent loss of heterozygosity nor tumor specific transcripts of the FHIT gene in human prostate cancer.
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PMID:Molecular analysis of the FHIT gene in human prostate cancer. 958 83

The expression of the beta1C integrin, an alternatively spliced variant of the beta1 subunit, was investigated in human adult and fetal tissues. In the adult, beta1C immunoreactivity was found in nonproliferative, differentiated simple, and/or pseudostratified epithelia in prostate glands and liver bile ducts. In contrast, beta1C was undetectable in stratified squamous epithelium of the epidermis and/or in hepatocytes. Luminal prostate epithelial cells expressed beta1C in vivo and in vitro, but no beta1C was seen in basal cells, which are proliferating cells. Fetal prostate expressed beta1C in differentiated glands that had a defined lumen, but not in budding glands, indicating that beta1C is a marker of prostate epithelium differentiation. The beta1C and the common beta1A variants are differentially distributed: beta1A was found in luminal and basal epithelial as well as in stromal cells in the prostate. In the liver, beta1C and beta1A were coexpressed in biliary epithelium, whereas vascular cells expressed only beta1A. Because we found beta1C in nonproliferative and differentiated epithelium, we investigated whether beta1C could have a causal role in inhibiting epithelial cell proliferation. The results showed that exogenous expression of a beta1C, but not of a beta1A, cytoplasmic domain chimeric construct, completely inhibited thymidine incorporation in response to serum by prostate cancer epithelial cells. Consistent with these in vitro results, beta1C appeared to be downregulated in prostate glands that exhibit regenerative features in benign hyperplastic epithelium. These data show that the presence of beta1C integrins in epithelial cells correlates with a nonproliferative, differentiated phenotype and is growth inhibitory to prostate epithelial cells in vitro. These findings indicate a novel pathophysiological role for this integrin variant in epithelial cell proliferation.
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PMID:Beta1C integrin in epithelial cells correlates with a nonproliferative phenotype: forced expression of beta1C inhibits prostate epithelial cell proliferation. 977 39

Physiologic or pathologically induced periods of exposure to relatively low levels of oxygen during pregnancy affect the expression and function of certain genes in the placenta. In this study, the differential display technique was utilized to identify genes that are regulated in cultured cytotrophoblast cells by exposure to low levels of oxygen. Using this approach, four genes, which have been designated HRF-1, HRF-2, HRF-6, and HRF-8, were cloned and partially characterized. Northern blot analysis showed that clones HRF-1 and HRF-2 were downregulated in response to exposure to low levels of oxygen, whereas expression of HRF-6 and HRF-8 was increased. DNA sequencing and sequence analysis revealed that HRF-1 may represent an alternatively spliced or tissue-specific form of the Kruppel family zinc finger protein znfp104 gene. Clone HRF-2 showed a high degree of identity with exons 9, 10 and 11 of N33, a gene that is located within a homozygously deleted region of metastatic prostate cancer. Clones HRF-6 and HRF-8 did not exhibit significant sequence identity with known sequences in GenBank and may represent novel genes. None of these genes have previously been shown to be present in trophoblast cells, nor have their expressions been shown to be regulated by oxygen. This study demonstrates that the differential display technique is a novel and effective method to analyse oxygen-mediated changes in gene expression in trophoblast cells.
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PMID:Differential display analysis of oxygen-mediated changes in gene expression in first trimester human trophoblast cells. 977 21

Integrins are a large family of transmembrane receptors that, in addition to mediating cell adhesion, modulate cell proliferation. The beta1C integrin is an alternatively spliced variant of the beta1 subfamily that contains a unique 48-amino acid sequence in its cytoplasmic domain. We have shown previously that in vitro beta1C inhibits cell proliferation and that in vivo beta1C is expressed in nonproliferative, differentiated epithelium and is selectively downregulated in prostatic adenocarcinoma. Here we show, by immunohistochemistry and immunoblotting analysis, that beta1C is coexpressed in human prostate epithelial cells with the cell-cycle inhibitor p27(kip1), the loss of which correlates with poor prognosis in prostate cancer. In the 37 specimens analyzed, beta1C and p27(kip1) are concurrently expressed in 93% of benign and 84%-91% of tumor prostate cells. Forced expression of beta1C in vitro is accompanied by an increase in p27(kip1) levels, by inhibition of cyclin A-dependent kinase activity, and by increased association of p27(kip1) with cyclin A. beta1C inhibitory effect on cell proliferation is completely prevented by p27(kip1) antisense, but not mismatch oligonucleotides. beta1C expression does not affect either cyclin A or E levels, or cyclin E-associated kinase activity, nor the mitogen-activated protein (MAP) kinase pathway. These findings show a unique mechanism of cell growth inhibition by integrins and point to beta1C as an upstream regulator of p27(kip1) expression and, therefore, a potential target for tumor suppression in prostate cancer.
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PMID:p27(kip1) acts as a downstream effector of and is coexpressed with the beta1C integrin in prostatic adenocarcinoma. 992 92

In the present study we examined the expression and release of the extracellular matrix glycoprotein fibronectin (FN) in a prostate cancer cell line (LNCaP) and in primary prostatic stromal cells using the reverse transcription-polymerase chain reaction (RT-PCR) and by an enzyme-linked immunosorbent assay. Perturbation experiments in vitro using antibodies directed against FN and the FN receptor were also performed. Immunohistochemistry was used to show the in vivo distribution of FN and the FN receptor in tissue sections of normal human prostate, benign prostatic hyperplasia, and prostate carcinoma. The expression of the oncofetal FN ED-B segment in benign prostatic hyperplasia and prostate carcinoma tissue was investigated by RT-PCR. The FN mRNA was expressed by LNCaP and primary prostatic stromal cells, respectively. Both cell types released FN into the medium in a time-dependent manner, whereby FN secretion was about 2.5-fold higher in cultures of stromal cells relative to LNCaP cells. Blocking FN with anti-FN antibodies resulted in a significant decrease in cell adhesion for LNCaP cells and a change in morphology for the primary stromal cells. FN was located mainly in the stromal compartment of the prostate, showing a distinct distribution pattern in prostate carcinoma, whereas the FN receptor was detectable only in the prostate epithelia. RT-PCR experiments showed the expression of the oncofetal FN ED-B segment in benign prostatic hyperplasia and prostate carcinoma tissue, with a 3.5-fold higher expression in the prostate carcinoma probes. Our data point to an important role for FN in cell adhesion of prostatic cells and show that an alternatively spliced FN mRNA is upregulated in the pathologically altered human prostate.
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PMID:Fibronectin in human prostatic cells in vivo and in vitro: expression, distribution, and pathological significance. 1046 12

Drosophila Suppressor of fused (Su(fu)) encodes a novel 468-amino-acid cytoplasmic protein which, by genetic analysis, functions as a negative regulator of the Hedgehog segment polarity pathway. Here we describe the primary structure, tissue distribution, biochemical and functional analyses of a human Su(fu) (hSu(fu)). Two alternatively spliced isoforms of hSu(fu) were identified, predicting proteins of 433 and 484 amino acids, with a calculated molecular mass of 48 and 54 kDa, respectively. The two proteins differ only by the inclusion or exclusion of a 52-amino-acid extension at the carboxy terminus. Both isoforms were expressed in multiple embryonic and adult tissues, and exhibited a developmental profile consistent with a role in Hedgehog signaling. The hSu(fu) contains a high-scoring PEST-domain, and exhibits an overall 37% sequence identity (63% similarity) with the Drosophila protein and 97% sequence identity with the mouse Su(fu). The hSu(fu) locus mapped to chromosome 10q24-q25, a region which is deleted in glioblastomas, prostate cancer, malignant melanoma and endometrial cancer. HSu(fu) was found to repress activity of the zinc-finger transcription factor Gli, which mediates Hedgehog signaling in vertebrates, and to physically interact with Gli, Gli2 and Gli3 as well as with Slimb, an F-box containing protein which, in the fly, suppresses the Hedgehog response, in part by stimulating the degradation of the fly Gli homologue. Coexpression of Slimb with Su(fu) potentiated the Su(fu)-mediated repression of Gli. Taken together, our data provide biochemical and functional evidence for the hypothesis that Su(fu) is a key negative regulator in the vertebrate Hedgehog signaling pathway. The data further suggest that Su(fu) can act by binding to Gli and inhibiting Gli-mediated transactivation as well as by serving as an adaptor protein, which links Gli to the Slimb-dependent proteasomal degradation pathway.
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PMID:Characterization of the human suppressor of fused, a negative regulator of the zinc-finger transcription factor Gli. 1056 61

Molecular characterization of prostate-specific antigen (PSA) has not been well elucidated, despite a great deal of clinical study. We examined the heterogeneity of PSA using reverse transcription-PCR and direct sequencing. A novel, alternatively spliced variant of the PSA transcript was found in prostate cancer (PC), as well as in benign prostatic tissue. This alternative splicing leads to the deletion of 44 amino acid residues (amino acids 45-88) from mature PSA, resulting in the loss of asparagine 45, which is a binding site for a carbohydrate chain. By these nested reverse transcription-PCR systems, this novel, alternatively spliced PSA gene was recognized in 13 of 18 (72.2%) cases with noncancerous prostate tissue, 4 of 5 (80.0%) PC cases, and 3 of 12 (25.0%) blood samples from PC patients (noncancerous prostate tissue group versus blood sample group, P = 0.011). At present, the biological significance of this alternative splicing remains to be established.
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PMID:A novel form of prostate-specific antigen transcript produced by alternative splicing. 1064 52

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