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)

The prostate apoptosis response-4 (par-4) gene was identified by differential screening for genes that are upregulated when prostate cancer cells are induced to undergo apoptosis. The par-4 gene is induced by apoptotic signals but not by growth-arresting, necrotic, or growth-stimulatory signals. The deduced amino acid sequence of par-4 predicts a protein with a leucine zipper domain at its carboxy terminus. We have recently shown that the Par-4 protein binds, via its leucine zipper domain, to the zinc finger domain of Wilms' tumor protein WT1 (R. W. Johnstone et al., Mol. Cell. Biol. 16:6945-6956, 1996). In experiments aimed at determining the functional role of par-4 in apoptosis, an antisense par-4 oligomer abrogated par-4 expression and activator-driven apoptosis in rat prostate cancer cell line AT-3, suggesting that par-4 is required for apoptosis in these cells. Consistent with a functional role for par-4 in apoptosis, ectopic overexpression of par-4 in prostate cancer cell line PC-3 and melanoma cell line A375-C6 conferred supersensitivity to apoptotic stimuli. Transfection studies with deletion mutants of Par-4 revealed that full-length Par-4, but not mutants that lacked the leucine zipper domain of Par-4, conferred enhanced sensitivity to apoptotic stimuli. Most importantly, ectopic coexpression of the leucine zipper domain of Par-4 inhibited the ability of Par-4 to enhance apoptosis. Finally, ectopic expression of WT1 attenuated apoptosis, and coexpression of Par-4 but not a leucine zipperless mutant of Par-4 rescued the cells from the antiapoptotic effect of WT1. These findings suggest that the leucine zipper domain is required for the Par-4 protein to function in apoptosis.
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PMID:Expression and function of the leucine zipper protein Par-4 in apoptosis. 919 16

Par-4 is a 38-kD protein pivotal to the apoptotic pathways of various cell types, most notably prostate cells and neurons, where it has been linked to prostate cancer and various neurodegenerative disorders including Alzheimer's and Huntington's diseases and HIV encephalitis. The C-terminal region of Par-4 is responsible for homodimerization and the ability of Par-4 to interact with proposed effector molecules. In this study, we show that the C-terminal 47 residues of Par-4 are natively unfolded at physiological pH and temperature. Evidence is rapidly accumulating that natively unfolded proteins play an important role in various cellular functions and signaling pathways, and that folding can often be induced on complexation with effector molecules or alteration of environment. Here we use primarily CD studies to show that changes in the environment, particularly pH and temperature, can induce the Par-4 C terminus to form a self-associated coiled coil.
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PMID:pH-induced folding of an apoptotic coiled coil. 1171 21

Transformation and malignant progression of prostate cancer is regulated by the inability of prostatic epithelial cells to undergo apoptosis rather than by increased cell proliferation. The basic apoptotic machinery of most prostate cancer cells is intact and the inability to undergo apoptosis is due to molecular alterations that result in failure to initiate or execute apoptotic pathways. This review discusses the role of anti-apoptotic proteins such as Bcl-2/BclXL, NF-kappaB, IGF, caveolin, and Akt, and pro-apoptotic molecules such as PTEN, p53, Bin1, TGF-beta, and Par-4 that can regulate progression of prostate cancer. In addition to highlighting the salient features of these molecules and their relevance in apoptosis, this review provides an appraisal of their therapeutic potential in prostate cancer. Molecular targeting of these proteins and/or their innate pro- or anti-apoptotic pathways, either singly or in combination, may be explored in conjunction with conventional and currently available experimental strategies for the treatment of both hormone-sensitive and hormone-resistant prostate cancer.
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PMID:Regulation of apoptosis in prostate cancer. 1208 64

Prostate apoptosis response-4 (par-4) is a pro-apoptotic gene identified in prostate cancer cells undergoing apoptosis. Par-4 protein, which contains a leucine zipper domain at the carboxy-terminus, functions as a transcriptional repressor in the nucleus. Par-4 selectively induces apoptosis in androgen-independent prostate cancer cells and Ras-transformed cells but not in androgen-dependent prostate cancer cells or normal cells. Cells that are resistant to apoptosis by Par-4 alone, however, are greatly sensitized by Par-4 to the action of other pro-apoptotic insults such as growth factor withdrawal, tumor necrosis factor, ionizing radiation, intracellular calcium elevation, or those involved in neurodegenerative diseases such as Alzheimer's, Parkinson's, Huntington's, and stroke. Apoptosis induction by Par-4 involves a complex mechanism that requires activation of the Fas death receptor signaling pathway and coparallel inhibition of cell survival NF-kappaB transcription activity. The unique ability of Par-4 to induce apoptosis in cancer cells but not normal cells and the ability of Par-4 antisense or dominant-negative mutant to abrogate apoptosis in neurodegenerative disease paradigms makes it an appealing candidate for molecular therapy of cancer and neuronal diseases.
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PMID:Apoptosis by Par-4 in cancer and neurodegenerative diseases. 1256 19

The prostate apoptosis response-4 (par-4) gene was isolated in a differential screen for immediate-early genes that are up-regulated during apoptosis of prostate cancer cells. Unlike most other immediate-early genes, par-4 is exclusively induced during apoptosis. The expression or induction of par-4 is not restricted to prostatic cells. The par-4 gene is widely expressed in diverse normal tissues and cell types and conserved during evolution. Par-4 protein contains a leucine zipper domain that is essential for sensitization of cells to apoptosis. Functional studies indicate that par-4 expression is necessary to induce apoptosis. Par-4 protein may induce apoptosis by a p53-independent pathway that involves cytoplasmic inactivation of atypical protein kinase C isoforms resulting in down-regulation of MAP kinase activity and an up-regulation of p38 kinase activity. However, Par-4 is detected in the cytoplasm and in the nucleus, suggesting both cytoplasmic and nuclear roles for the pro-apoptotic protein. Interestingly, Par-4 is predicted to contain a death domain homologous to that of Fas or TRADD, and may therefore trigger a death cascade analogous to that of the death domain proteins. Par-4-dependent apoptosis is abrogated by Bcl-2 and by caspase inhibitors. Identification of the components of the p53-independent apoptosis pathway induced by Par-4 may help to further elucidate the mechanism of Par-4 action. Moreover, in view of the pro-apoptotic function of Par-4, its role in diseases, such as cancer and neurogenerative disorders, whose pathophysiology involves apoptotic cell death needs further investigation.
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PMID:Apoptosis mediated by a novel leucine zipper protein Par-4. 1464 2

To determine the therapeutic potential of cardiac glycosides in androgen-independent prostate cancer, we examined ouabain-induced cytotoxic effect as well as the signaling pathways in PC-3 cells. Ouabain induced a time- and concentration-dependent cytotoxicity using mitochondrial MTT reduction assays, and the effective threshold concentration was in nanomolar level. At the concentrations less than 10 nM, ouabain induced a decrease of mitochondrial activity until a 7-hr exposure was performed, while it induced a rapid drop of mitochondrial function as early as a 2-hr treatment of cells with high concentrations of ouabain suggesting the involvement of two distinct mechanisms to ouabain action. After functional examinations, the data showed that both low and high concentrations of ouabain induced an inhibition of Na+-K+ ATPase and a subsequent 45Ca2+ influx into PC-3 cells. High concentrations of ouabain induced a significant and time-dependent loss of mitochondrial membrane potential (Deltapsim), a sustained production of reactive oxygen species (ROS), and severe apoptotic reaction. Ouabain also induced an increase of Par-4 (prostate apoptosis response 4) expression. Furthermore, an antisense, but not nonsense, oligomer against Par-4 expression significantly inhibited the cytotoxicity induced by low concentrations of ouabain. It is suggested that ouabain induces two modes of cytotoxic effect in human hormone-independent prostate cancer PC-3 cells. Low concentrations of ouabain induce the increase of Par-4 expression and sensitize the cytotoxicity; while high concentrations of ouabain induce a loss of Deltapsim, a sustained ROS production and a severe apoptosis in PC-3 cells.
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PMID:Investigation of ouabain-induced anticancer effect in human androgen-independent prostate cancer PC-3 cells. 1475 72

Prostate cancer is the most frequently diagnosed disease in American men today and the second leading cause of death among them. Transformation and progression towards malignancy in prostate cancer is dependant on the inability of the prostatic epithelial cells to undergo apoptosis rather than on the regulation of proliferation. Molecular targeting of inadequacies in this process of suppression of apoptosis could prove to be of great therapeutic importance for prostate cancer patients. Existence of tissue specific promoters to aid in the delivery of genes with therapeutic potential makes molecular therapy an attractive option. This review discusses salient features of molecules such as, Bcl-2, Bcl-(XL), NF-kappaB, Akt, PTEN and Par-4 that play a significant role in the regulation of prostate cancer and focuses on the prospects of effectively utilizing their potential for the therapy of hormone-sensitive and hormone-resistant prostate cancer.
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PMID:Molecular therapy intervention prospects in prostate cancer. 1496 37

Prostate cancer is the most common non-cutaneous malignancy in American men and the second greatest cause of cancer-related death. Development of effective therapeutic modalities for the treatment of this cancer relies heavily on understanding the molecular alterations that result in the initiation and progression of the tumorigenic process. Increasing evidence indicates that impaired ability to undergo apoptosis plays an important role in the evolution from androgen-dependent to androgen-independent prostate cancer. In this review, we address recent progress toward the central objectives of understanding the molecular events that contribute to prostate cancer progression. We focus on some key regulatory molecules, including the pro-apoptotic regulators p53, PTEN, caspases and Par-4, and the anti-apoptotic molecules Bcl-2, NF-kappaB and Akt, to discuss their roles in prostate cancer progression and their therapeutic implications in human prostate carcinoma.
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PMID:Apoptosis in prostate cancer: progressive and therapeutic implications (Review). 1520 13

Prostate cancer is a major pathology in industrialized countries. Tumor growth usually results from increased cell proliferation, conjugated with an inhibition of programmed cell death (apoptosis). In this paper, after a short description of the apoptotic mechanisms and their methods of investigation, we review the present knowledge of the implication of different molecular actors in the regulation of apoptosis in prostate cancer cells. This review notably summarizes the present knowledge of the (de)regulation of the effects of androgens, p53, Bcl-2, Bcl-xL, Bax, Akt, PTEN, Par-4, clusterine, caspases and NF-kappaB in prostate adenocarcinoma cell lines and provides an appraisal of their therapeutic potential. A better knowledge of the apoptotic pathways in these cells could indeed allow the development of new selective and effective anti-cancer strategies.
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PMID:[Prostate carcinoma cell lines and apoptosis: a review]. 1565 57

Androgen receptor (AR) is a ligand-activated transcription factor that mediates the action of androgens and is essential for the growth, function, and cell differentiation of the prostate gland. Here, we demonstrated that the prostate apoptosis response factor-4 (par-4) functions as a novel AR coactivator. Par-4 physically interacted with the DNA-binding domain of AR, enhanced AR interaction with DNA, and increased AR-dependent transcription. Par-4 enhanced the c-FLIP promoter activity and was recruited on to the c-FLIP gene in the presence of androgens, and the dominant-negative par-4 decreased c-FLIP expression. These results suggest that, in addition to its proapoptotic function, par-4 acts as a novel transcription cofactor for AR to target c-FLIP gene expression. In addition, we demonstrated that loss of c-FLIP expression was essential for castration-induced apoptosis in the prostate gland and that enhanced c-FLIP expression was associated with prostate cancer progression to the androgen-resistant stage. Our data shed light on a transcription-mediated mechanism for the effects of the AR pathway on cell survival and apoptosis.
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PMID:Androgen receptor and prostate apoptosis response factor-4 target the c-FLIP gene to determine survival and apoptosis in the prostate gland. 1672 Jul 17

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