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

Prostate epithelial cell growth is under the control of both steroid and peptide factors. Human prostate cancer cell lines have been used to investigate similar agents in malignancy. Activins are dimeric peptides structurally related to transforming growth factor-beta and produced in the gonads and a wide array of extragonadal tissues. The activins act at the pituitary to regulate the synthesis and secretion of FSH. At other sites, such as bone marrow, liver, and gonads, activin may play an important role in the regulation of cell growth and differentiation. It was the purpose of the current study to determine whether activin had similar actions on prostate cancer cells, specifically the androgen-responsive LNCaP and the androgen-resistant PC-3 cell lines. Using reverse transcription-PCR, messenger RNAs for type I and type II activin receptor subunits as well as the activin-binding protein follistatin were detected in both cell lines. Activin treatment rapidly (<24 h) inhibited LNCaP, but not PC-3, cell growth. The effects of activin were evident at low levels, with a concentration of 5 ng/ml being effective at 24 h, and a concentration of 0.5 ng/ml being effective at 48 h. These results contrasted with the actions of transforming growth factor-beta, which inhibited only PC-3 cells and required a greater treatment duration (96 h) to be effective. To determine whether these prostate cancer cell lines were also producing activin, LNCaP and PC-3 cells were treated with follistatin. Again, only the LNCaP cells responded, with growth acceleration noted by 24 h. As PC-3 cell responses to activin could be independent of cell proliferation, we transfected LNCaP and PC-3 cells with a known activin-responsive promoter/reporter gene construct (p3TP-Lux) and treated cells with activin. Only LNCaP cells produced a measurable response in luciferase activity. Finally, we attempted to determine whether the PC-3 cell resistance to activin was mediated via a transferable factor. PC-3 conditioned medium was added to LNCaP cells in the absence or presence of exogenous activin and had a small, but statistically nonsignificant (P < 0.09), action to blunt the actions of activin. We conclude that activin is a potent growth inhibitor of LNCaP cell growth. Moreover, these cells also produce activin, suggesting that locally derived activin may play a role in regulating cell proliferation. Despite expressing messenger RNAs for activin receptors, PC-3 cells are resistant to activin, perhaps the result of the production of an activin-blocking factor or a defective activin response system. These cell lines will thus serve as useful models in which to further study the cellular basis of activin action.
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PMID:Activin inhibition of prostate cancer cell growth: selective actions on androgen-responsive LNCaP cells. 894 Mar 39

LNCaP cells, derived from an androgen-sensitive cell line widely employed as an in vitro model of human prostate cancer, have been shown to express activin receptors. Activin is a local regulator of cellular growth, appears to play a key role in mesoderm induction and differentiation during development, and has been implicated in gonadal tumorigenesis. Follistatin, a monomeric glycoprotein that specifically binds and neutralizes activin, is often coexpressed with activin and, thus, modulates the autocrine/paracrine biological activity of this potent growth factor. We tested the hypothesis that LNCaP growth is modulated by the activin/follistatin system. Recombinant human activin A inhibited [3H]thymidine incorporation in a dose-dependent fashion with an ED50 of approximately 0.43 +/- 0.3 nM. Activin (0.1-3 nM) also inhibited dihydrotestosterone (DHT)-stimulated [3H]thymidine incorporation in LNCaP cells. Similarly, recombinant human inhibin A inhibited LNCaP proliferation, but was only 1/100th as potent as activin. Furthermore, activin (3 nM) induced a 3-fold increase in the extent of labeling of low mol wt DNA fragments typical of apoptosis. Activin-induced apoptosis was also indicated by an increase in the number of cells with reduced DNA content, as measured by flow cytometry of activin-treated cells. Both activin-mediated inhibition of cell proliferation and induction of apoptosis could be completely blocked by recombinant human follistatin. Based upon these results using an in vitro model, we speculate that activin functions locally to oppose androgen-driven cell proliferation and, thus, is a key factor controlling prostate growth. Reduced activin biosynthesis, increased follistatin secretion, or signaling defects in the activin receptor system should be further investigated in future studies as potential mechanisms underlying enhanced androgen-independent growth of human prostate cancer cells.
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PMID:Activin inhibits basal and androgen-stimulated proliferation and induces apoptosis in the human prostatic cancer cell line, LNCaP. 894 Mar 74

Activin, a member of transforming growth factor beta (TGF beta), plays an important role during embryonic development, and defects of this growth factor results in degenerative disorders as demonstrated by gene knock out studies. TGF beta has been shown to have dual effects on the regulation of growth of prostate cancer cells. Recently, we have reported that activin was localized and messenger RNAs encoding activin and its receptors were expressed in human prostate cancer cells. To determine whether normal prostate cells produce inhibin and/or activin, immunohistochemistry was conducted on rat prostate glands using specific antibodies for inhibin and activin. The inhibin and activin were present in the cytoplasm and nuclei of epithelial cells whereas stromal cells were not stained. The expression of mRNA for the inhibin/activin subunits was determined using both in situ hybridization and the reverse transcription-polymerase chain reaction (RT-PCR) technique. In addition, the identity of the cDNA product of RT-PCR was verified with DNA sequencing. These findings suggest that inhibin is only produced and mRNA encoding the alpha-subunit for inhibin is only expressed in the normal rat prostate but activin and its receptors are produced and expressed in both normal rat prostate as well as human prostate cancer cells.
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PMID:Expression and localization of inhibin/activin subunits and activin receptors in the normal rat prostate. 903 86

Activin A, a homodimer of the betaA subunit of inhibin, is a member of the TGF-beta family. It is a multifunctional molecule regulating the growth, differentiation, and survival of a variety of cells. Treatment with activin A to an androgen-sensitive human prostatic cancer cell line LNCaP resulted in growth and morphological change and those were accompanied by up-regulation of prostatic differentiation markers prostate-specific antigen (PSA) and prostatic acid phosphatase (PAP). In addition, the expression of androgen receptor was also enhanced by activin treatment. These results suggest that activin has significant influence on LNCaP cells.
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PMID:Regulation of growth and prostatic marker expression by activin A in an androgen-sensitive prostate cancer cell line LNCAP. 917 76

Activins are growth and differentiation factors that have growth inhibitory effects on LNCaP and DU145, but not PC3, human prostate tumor cell lines. Activin-binding proteins, follistatins, block the inhibitory actions of exogenously added activins on LNCaP and DU145 tumor cell lines. Based on these in vitro observations using human prostate tumor cell lines, the aims of this study were to determine whether activins and follistatins are expressed in the human prostate in tissues from men with high grade prostate cancer. The expression and cellular localization of these proteins in malignant and nonmalignant regions of these tissues were compared to determine whether any changes occur with progression to malignancy. The results demonstrate that activins and follistatins are synthesized in tissues from men with high grade prostate cancer, and that messenger ribonucleic acid (mRNA) and protein for the activin beta A- and beta B-subunits and follistatin is expressed and localized to poorly differentiated tumor cells. In the nonmalignant regions, activin beta A and beta B subunit mRNA and proteins are predominantly localized to the epithelium. Follistatin mRNA was expressed in the basal epithelial cells and in the fibroblastic stroma; however, the localization of follistatin proteins using two specific antisera demonstrated a difference between the follistatin isoforms expressed in basal cells and the stroma. In the progression to malignancy, the colocalization of follistatin and activins to the tumor cells in vivo implies that resistance to the growth inhibitory effects of activin may be conferred by follistatins.
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PMID:Expression and localization of activin subunits and follistatins in tissues from men with high grade prostate cancer. 936 May 51

Apoptosin, a novel gene encoding a mitotic kinase-motif protein, is stimulated by activin, a member of TGF-beta family, in human LNCaP prostate cancer cells and in patient tissues. We employed a gene knockout methodology based on the covalent bonding of chemically modified antisense probes to apoptosin mRNAs in LNCaP cells. The mRNA-antisense hybrid duplexes were neither translated nor post-transcriptionally modified, resulting in no protein synthesis. Introducing antisense apoptosin into activin-induced apoptotic LNCaP cells prevented apoptosis, interfered with genomic DNA fragmentation and released cell cycle checkpoint. These findings suggest that the apoptosin, in addition to p53, is important in apoptotic regulation of human prostate cancers.
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PMID:Suppression of activin-induced apoptosis by novel antisense strategy in human prostate cancer cells. 1060 Apr 79

Successful prostate cancer diagnosis and management continue to provide challenges for the clinician. While interventions aimed at the containment of both early and late disease continue to fail in a significant number of patients, the search for answers must incorporate an analysis of the processes of normal and aberrant growth and development within the gland itself. Inhibin and its structurally related protein, activin, are members of the transforming-growth-factor beta (TGFbeta) superfamily. Originally identified as regulators of FSH, these proteins are now recognised to have widespread biological functions. This might be expected of proteins that are structurally homologous to TGFbeta itself, which is recognised to have regulatory roles in both normal and malignant prostate tissue. The aim of this review is to examine the relationship between inhibins, activins and their related proteins and the development of prostate cancer. The homology with TGF, the pluripotent effects of activin on various tissues and the roles for inhibins in ovarian cancer make activins and inhibins candidate growth factors for involvement at multiple sites in the progression from benign disease to cancer. In compiling this review, we aim to delineate the changes in inhibins and activins in this pathway and in doing so implicate their potential roles in the progression of carcinogenesis. We will compare the changes in inhibin and its related proteins in prostate cancer to those that are known in ovarian cancer. We will discuss the similarities and differences between the putative role of activins and TGFbeta in prostate carcinogenesis. The importance of this review lies in demonstrating that inhibin, an endocrine hormone, and its related proteins may contribute to endocrine-related cancers, such as that of the prostate gland.
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PMID:The role of inhibins and activins in prostate cancer pathogenesis. 1117 46

The normal human prostate expresses inhibin and activin subunits. In prostate cancer, the inhibin alpha subunit gene is down regulated and this is associated with loss of heterozygosity (LOH) at the gene locus and methylation of the promoter. These data support the hypothesis that the inhibin alpha subunit is tumor suppressive in the prostate. The pluripotent effects of activins and the similarities to transforming growth factor beta (TFGbeta) suggest a role for activins in progression to malignancy, whereby, the normal growth inhibitory action of activin A observed on benign cells is lost with the acquisition of activin resistance in prostate cancer cells. The mechanisms of rendering tumor cells resistant to activin A may include: alteration in activin binding protein (follistatin) synthesis and/or dimerisation with activin beta(C) to form novel activin dimers. The contribution of the activin signalling cascade to malignancy requires further evaluation to identify the synergies and differences to other members of the TGFbeta superfamily.
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PMID:The contribution of inhibins and activins to malignant prostate disease. 1145 85

Prostatic intraepithelial neoplasia (PIN) is considered the pre-malignant stage of prostate carcinoma, but little is known of its initiation and evolution. The identification of genes associated with these precursors of prostate cancer may elucidate the pathways of the early oncogenesis of this disease. Previously, we have reported that activin, a member of the TGFbeta superfamily, acted as an inhibitory growth factor in prostate cancer. We used laser capture microdissection, mRNA-library amplification (RNA-PCR), subtractive hybridization, and complementary DNA microarray to examine gene expression profiles in activin-positive PIN, compared with activin-negative PIN. Subtractive hybridization showed that 28 genes were differentially expressed (13 and 15 genes were up- and down-regulated, respectively). Microarray analysis identified 29 and 56 more genes (4 times) up- and down-regulated, respectively, suggesting that DNA microarray is a more effective method in screening gene profiles. We have validated the known genes identified by both subtractive hybridization and microarray technologies, using Northern blot analysis in the mRNA libraries generated from cells microdissected from pathological slides. We have successfully showed that at least 13 genes are involved in activin-associated PIN. The evaluation of candidate genes that emerge from these experiments provides a rational approach to investigate those genes significant in evolution from PIN to prostate carcinoma.
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PMID:Gene expression in precursor cells of prostate cancer associated with activin by combination of subtractive hybridization and microarray technologies. 1467 4

Activin, a member of the TGFbeta superfamily, is expressed in the prostate and inhibits growth. We demonstrate that the effects of activin and androgen on regulation of prostate cancer cell growth are mutually antagonistic. In the absence of androgen, activin induced apoptosis in the androgen-dependent human prostate cancer cell line LNCaP, an effect suppressed by androgen administration. Although activin by itself did not alter the cell cycle distribution, it potently suppressed androgen- induced progression of cells into S-phase of the cell cycle and thus inhibited androgen-stimulated growth of LNCaP cells. Expression changes in cell cycle regulatory proteins such as Rb, E2F-1, and p27 demonstrated a strong correlation with the mutually antagonistic growth regulatory effects of activin and androgen. The inhibitory effect of activin on growth was independent of serine, serine, valine, serine motif phosphorylation of Smad3. Despite their antagonistic effect on growth, activin and androgen costimulated the expression of prostate-specific antigen through a Smad3-mediated mechanism. These observations indicate the existence of a complex cross talk between activin and androgen signaling in regulation of gene expression and growth of the prostate.
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PMID:Mutually antagonistic effects of androgen and activin in the regulation of prostate cancer cell growth. 1468 51


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