Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P42574 (caspase-3)
45,978 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The goals of this work were to establish a reproducible and effective model of apoptosis in a cell line derived from advanced prostate cancer and to study the role of the caspase family of proteases in mediating apoptosis in this system. The study involved the use of the prostate cancer cell line LNCaP. Apoptosis was induced using the hydroxymethyl glutaryl CoA reductase inhibitor, lovastatin, and was evaluated by agarose gel electrophoresis of genomic DNA, morphological criteria, and terminal deoxynucleotidyl transferase-mediated nick end labeling. Caspases were studied by catalytic activity, mRNA induction, and protein processing. Lovastatin (30 microM) was an effective inducer of apoptosis, causing changes that were evident after 48 h and essentially complete after 96-120 h of treatment. These effects were prevented by the simultaneous addition of mevalonate (300 microM) to the culture medium. Lovastatin induced a proteolytic activity that was able to cleave the enzyme poly(ADP-ribose) polymerase and the substrate Z-DEVD-AFC, which is modeled after the P1-P4 amino acids of the poly(ADP-ribose) polymerase cleavage site. Caspase-7, but not caspase-3, underwent proteolytic activation during lovastatin-induced apoptosis, an effect prevented by mevalonate. Caspase-7 was the only detected interleukin 1beta converting enzyme family protease with DEVD cleavage activity that exhibited lovastatin-induced mRNA up-regulation. Again, mevalonate blocked this effect. Lovastatin-induced apoptosis also was prevented when the caspase inhibitors Z-DEVD-CH2F or Z-VAD-CH2F (100 microM) where added to the medium. These studies have identified lovastatin as a powerful inducer of apoptosis in the cell line LNCaP. Caspase activation was a necessary event for LNCaP cells to undergo apoptosis during treatment with lovastatin. Of the caspases tested, only caspase-7 underwent proteolytic activation after stimulation with lovastatin. Identification of caspase-7 as a potential mediator of lovastatin-induced apoptosis broadens our knowledge of the molecular events associated with programmed cell death in a cell line derived from prostatic epithelium.
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PMID:Caspase-7 is activated during lovastatin-induced apoptosis of the prostate cancer cell line LNCaP. 942 61

A newly synthesized cyclic hydroxamic acid compound, BMD188 [cis-1-hydroxy-4-(1-naphthyl)-6-octylpiperidine-2-one], was found to induce the apoptotic death of cultured prostate cancer cells by activating caspase-3. Orally administered BMD188 significantly inhibited the primary growth of prostate cancer cells (Du145) orthotopically implanted into SCID mice. Mechanistic studies indicated that BMD188 did not alter the protein levels of several Bcl-2 family members. In contrast, the BMD188 effect required three essential factors: reactive oxygen species (ROS), the mitochondrial respiratory chain function, and proteases. First, the apoptosis-inducing effect of BMD188 could be blocked by ROS scavengers such as Desferal. Second, both BMD188-induced PARP cleavage as well as PC3 cell apoptosis could be dramatically inhibited by several complex-specific mitochondrial respiration blockers. The involvement of mitochondria was also supported by the observations that BMD188 dramatically altered the mitochondrial distribution and morphology without affecting the cellular ATP levels. Finally, the apoptosis-inducing effect of BMD188 in PC3 cells could be significantly inhibited by serine protease inhibitors (TPCK and TLCK) as well as by caspase inhibitors (zVAD-fmk and DEVD-CHO). Collectively, the present study suggests that BMD188 and its analogs may find clinical applications in the treatment of prostate cancer patients by inducing apoptotic death of prostate cancer cells.
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PMID:BMD188, A novel hydroxamic acid compound, demonstrates potent anti-prostate cancer effects in vitro and in vivo by inducing apoptosis: requirements for mitochondria, reactive oxygen species, and proteases. 976 36

We studied the molecular mechanisms of apoptosis in the prostate cancer cell line LNCaP and whether overexpression of caspase activity could force this cell line to undergo apoptosis. The inhibitor of phosphomevalonate decarboxylase, sodium phenylacetate, and the protein kinase inhibitor staurosporine induced (a) release of cytochrome c from the mitochondria to the cytosol; (b) reduction in mitochondrial transmembrane potential; (c) proteolytic processing of caspase-3 and -7 but not -2; (d) cleavage of the DEVD substrate and the death substrates poly(ADP-ribose) polymerase and DNA fragmentation factor; and (e) apoptosis. The panspecific inhibitor of caspase activation N-benzyloxycarbonyl-Val-Ala-Asp(OMe)-fluoromethylketone (z-VAD-FMK) prevented all of these events except release of mitochondrial cytochrome c into the cytosol. None of these apoptotic signaling events were elicited by staurosporine or sodium phenylacetate treatment of LNCaP-Bcl-2 cells that overexpress the oncoprotein Bcl-2. Because caspase-7 is activated in every model of apoptosis that we have characterized thus far, we wished to learn whether overexpression of this protease could directly cause apoptosis of LNCaP cells. By using a replication-defective adenovirus, overexpression of caspase-7 protein in both LNCaP and LNCaP-Bcl-2 cells was accompanied by induction of cleavage of the DEVD substrate and TUNEL. These studies have demonstrated that caspase-7 and -3 are critical mediators of apoptosis in LNCaP cells. Caspase-7 was proteolytically activated in every model of apoptosis that we have developed, and the overexpression of it induced apoptosis of LNCaP and LNCaP-Bcl-2 cells. Thus, adenoviral-mediated transfer of caspase-7 may offer a new effective approach for the treatment of prostate cancer.
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PMID:Signaling pathway activated during apoptosis of the prostate cancer cell line LNCaP: overexpression of caspase-7 as a new gene therapy strategy for prostate cancer. 992 51

Constitutive activation of the phosphatidylinositol 3'-kinase (PI3 kinase)-Akt/protein kinase B (PKB) "survival signaling" pathway is a likely mechanism by which many cancers become refractory to cytotoxic therapy. In LNCaP prostate cancer cells, the PTEN phosphoinositide phosphatase is inactivated, leading to constitutive activation of Akt/PKB and resistance to apoptosis. However, apoptosis and inactivation of Akt/PKB can be induced in these cells by treatment with PI3 kinase inhibitors. Surprisingly, androgen, epidermal growth factor, or serum can protect these cells from apoptosis, even in the presence of PI3 kinase inhibitors and without activation of Akt/PKB, indicating the activity of a novel, Akt/PKB-independent survival pathway. This pathway blocks apoptosis at a level prior to caspase 3 activation and release of cytochrome c from mitochondria.
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PMID:Antiapoptotic signaling in LNCaP prostate cancer cells: a survival signaling pathway independent of phosphatidylinositol 3'-kinase and Akt/protein kinase B. 1019 12

LNCaP prostate cancer cells are highly resistant to induction of programmed cell death by y-irradiation and somewhat sensitive to the death-inducing effects of tumor necrosis factor (TNF)-alpha. Simultaneous exposure of LNCaP cells to TNF-alpha and 8 Gy of irradiation was synergistic and resulted in a 3-fold increase of apoptotic cells within 72 h compared to TNF-alpha alone. It appeared that TNF-alpha sensitized the cells to irradiation because, when cells were irradiated 24 h after exposure to TNF-alpha, increased cell death was observed. In contrast, irradiation delivered 24 h prior to TNF-alpha exposure did not result in more cell death than after TNF-alpha alone. TNF-alpha induced expression of its own mRNA, but TNF-alpha mRNA induction was neither induced nor enhanced by irradiation. Activation of the transcription factor nuclear factor kappaB can be induced by TNF-alpha and has a modulating antiapoptotic effect. But enhancement of TNF-alpha-induced cell death by irradiation did not result from altered activation of nuclear factor kappaB. TNF-alpha treatment of LNCaP cells resulted in partial activation of caspase-8 and -6 but not caspase-3. There was only minimal poly(ADP-ribose) polymerase cleavage seen in LNCaP cells after exposure to both TNF-alpha and irradiation at 72 h, a time when 60% of the cells were apoptotic. Experiments with peptide inhibitors of cysteine and serine proteases suggested that caspases were the predominant mediators of apoptosis induced by TNF-alpha alone but that serine proteases contributed significantly to cell death induced by TNF-alpha plus irradiation. TNF-alpha increased production of ceramide in LNCaP cells 48 h after exposure. Although irradiation alone had no effect on ceramide production in LNCaP cells, TNF-alpha plus irradiation induced significantly more ceramide than TNF-alpha alone. Ceramide production did not occur immediately after exposure to TNF-alpha, but rather was delayed such that ceramide levels were increased only 24 h after exposure to apoptotic stimuli. Moreover, non-toxic levels of exogenous C2-ceramide sensitized LNCaP cells to irradiation similarly to TNF-alpha, suggesting that one mechanism by which LNCaP cells were sensitized to irradiation was by increased intracellular ceramide. Hence, ceramide generation is a critical component in radiation-induced apoptosis in human prostate cancer cells. Inhibition of ceramide generation may provide a selective advantage in the development of radioresistance in prostate cancer.
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PMID:Tumor necrosis factor-alpha sensitizes prostate cancer cells to gamma-irradiation-induced apoptosis. 1019 36

Cells differ in the time required to execute cell death after receipt of a death signal. One reason may be the requirement for de novo synthesis of components of the death pathway. TSU-Pr1 prostate cancer cells treated with okadaic acid demonstrated activation of caspase-3, PARP cleavage, and nuclear fragmentation by 24 h and apoptosis by 72 h. Levels of procaspase-3 and procaspase-7, the precursor molecules of two effector caspases, were not depleted during apoptosis. Levels of procaspase-3 and -7 mRNA increased steadily in TSU-Pr1 cells up to 72 h after exposure to okadaic acid. Nuclear run-off experiments showed that the increase in mRNA was not due to transcriptional activation of caspase-3 and -7 mRNA. Antisense caspase-3 and caspase-7 oligodeoxynucleotides caused a depletion of procaspases-3 and -7 and a delay in apoptosis of TSU-Pr1 cells. Caspase antisense oligodeoxynucleotides inhibited apoptosis to a similar extent as peptide inhibitors of cysteine proteases. Synthesis of procaspases-3 and -7 was necessary to sustain programmed cell death in TSU-Pr1 prostate cancer cells.
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PMID:Synthesis of procaspases-3 and -7 during apoptosis in prostate cancer cells. 1038 29

Phorbol esters, the activators of protein kinase C (PKC), induce apoptosis in androgen-sensitive LNCaP prostate cancer cells. The role of individual PKC isozymes as mediators of this effect has not been thoroughly examined to date. To study the involvement of the novel isozyme PKCdelta, we used a replication-deficient adenovirus (PKCdeltaAdV), which allowed for a tightly controlled expression of PKCdelta in LNCaP cells. A significant reduction in cell number was observed after infection of LNCaP cells with PKCdeltaAdV. Overexpression of PKCdelta markedly enhanced the apoptotic effect of phorbol 12-myristate 13-acetate in LNCaP cells. PKCdelta-mediated apoptosis was substantially reduced by the pan-caspase inhibitor z-VAD and by Bcl-2 overexpression. Importantly, and contrary to other cell types, PKCdelta-mediated apoptosis does not involve its proteolytic cleavage by caspase-3, suggesting that allosteric activation of PKCdelta is sufficient to trigger apoptosis in LNCaP cells. In addition, phorbol ester-induced apoptosis was blocked by a kinase-deficient mutant of PKCdelta, supporting the concept that PKCdelta plays an important role in the regulation of apoptotic cell death in LNCaP prostate cancer cells.
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PMID:Involvement of protein kinase C delta (PKCdelta) in phorbol ester-induced apoptosis in LNCaP prostate cancer cells. Lack of proteolytic cleavage of PKCdelta. 1071 64

Activation of either tumor necrosis factor receptor 1 or Fas induces a low level of programmed cell death in LNCaP human prostate cancer cells. We have shown that LNCaP cells are entirely resistant to gamma-radiation-induced apoptosis, but can be sensitized to irradiation by TNF-alpha. Fas activation also sensitized LNCaP cells to irradiation, causing nearly 40% cell death 72 h after irradiation. Caspase-8 was cleaved and activated after exposure to tumor necrosis factor (TNF)-alpha. However, after exposure to anti-Fas antibody caspase-8 cleavage occurred only between the 26-kDa N-terminal prodomain and the 28-kDa C-terminal region that contains the protease components. Although anti-Fas antibody plus irradiation induced apoptosis that could be blocked by the pancaspase inhibitor zVAD, there was no measurable caspase-8 activity after exposure to anti-Fas antibody. The effector caspases-6 and -7, and to a lesser extent caspase-3, were activated by TNF-alpha, but not by anti-Fas antibody. Anti-Fas antibody, like TNF-alpha also activated serine proteases that contributed to cell death. Exposure of LNCaP cells simultaneously to TNF-alpha and anti-Fas antibody CH-11 resulted in marked enhancement of apoptosis that occurred very rapidly and was still further augmented by irradiation. Rapid apoptosis that ensued from combined treatment with TNF-alpha, anti-Fas antibody, and irradiation was completely blocked either by zVAD or expression of dominant negative Fas-associated death domain. Our data shows that there are qualitative differences in caspase activation resulting from either TNF receptor 1 or Fas. Simultaneous activation of these receptors was synergistic and caused rapid epithelial cell apoptosis mediated by the caspase cascade.
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PMID:Tumor necrosis factor-alpha and Fas activate complementary Fas-associated death domain-dependent pathways that enhance apoptosis induced by gamma-irradiation. 1072

Farnesyltransferase inhibitor (FTI) induces apoptosis of transformed cells. This involves changes in mitochondria, including decrease of mitochondrial membrane potential and the release of cytochrome c. The released cytochrome c then induces events leading to the activation of caspase-3. In this study, we report that purine derivative cyclin-dependent kinase (Cdk) inhibitors, roscovitine and olomoucine, dramatically enhance this FTI-induced apoptosis of human cancer cell lines. We noticed the synergy between Cdk inhibitors and FTI through our screen to identify compounds that enhance FTI-induced apoptosis of promyelocytic leukemic cell line HL-60. The Cdk inhibitors by themselves do not induce apoptosis at the concentrations used. Roscovitine synergizes with FTI to release cytochrome c from mitochondria. In addition, we detected synergistic effects of FTI and roscovitine to inhibit hyperphosphorylation of retinoblastoma protein. Enhancement of FTI-induced apoptosis by roscovitine is not unique to HL-60 cells, since similar synergy was observed with a leukemic cell line CEM and a prostate cancer cell line LNCaP. In LNCaP cells, in addition to roscovitine and olomoucine, phophatidylinositol 3-kinase (PI 3-kinase) inhibitor, LY294002, was effective in enhancing FTI-induced apoptosis. However, the effects of roscovitine appear to be distinct from those of LY294002, since roscovitine did not affect Akt activity while LY294002 significantly decreased the activity of Akt. Our finding of the synergy between FTI and Cdk inhibitor is significant for understanding the mechanism of action of FTI as well as for clinical use of FTI.
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PMID:Cdk inhibitors, roscovitine and olomoucine, synergize with farnesyltransferase inhibitor (FTI) to induce efficient apoptosis of human cancer cell lines. 1087 58

The flavonoid baicalin (baicalein 7-D-beta-glucuronate), isolated from the dried root of Scutellaria baicalensis Georgi (Huang Qin), is widely used in the traditional Chinese herbal medicine for its anti-inflammatory, anti-pyretic and anti-hypersensitivity effects. In the present study, we investigated the in vitro effects of baicalin on the growth, viability, and induction of apoptosis in several human prostate cancer cell lines, including DU145, PC-3, LNCaP and CA-HPV-10. The cell viability after treating with baicalin for 2-4 days was quantified by a colorimetric 3-(4, 5-dimethylthiazol-2-yl)-5-(3-carboxymethoxyphenyl)-2-(4-s ulfophenyl)- 2H-tetrazolium (MTS) assay. The results showed that baicalin could inhibit the proliferation of prostate cancer cells. The responses to baicalin were different among different cell lines, with DU145 cells being the most sensitive and LNCaP cells the most resistant. Baicalin caused a 50% inhibition of DU145 cells at concentrations of 150 microM or above. The inhibition of proliferation of prostate cancer cells after a short period of exposure to baicalin was associated with induction by apoptosis, as evidenced by the typical nuclear fragmentation using Hoechst 33258 staining, terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling (TUNEL) labeling, DNA fragmentation, activation of caspase-3 and cleavage of poly-ADP-ribose polymerase (PARP). The results indicate that baicalin has direct anti-tumor effects on human prostate cancer cells.
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PMID:Induction of apoptosis in prostate cancer cell lines by a flavonoid, baicalin. 1105 52


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