UNIPROT:P42574 - FACTA Search

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

Caspase-3 is a key executioner cysteine protease involved in programmed cell death or apoptosis. A ribozyme to human caspase-3 was designed, tested by in vitro cleavage, and transfected into a drug-resistant variant (DLKP-A5F) of a human lung carcinoma cell line (DLKP). By both stable and transient transfection, this ribozyme was shown to be effective at down-regulating human caspase-3 mRNA and protein levels.
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PMID:Construction and transfection of a ribozyme targeting human caspase-3. 1515 40

Previous studies point to protein kinase C (PKC) isozyme eta as a resistance factor in cancer cells. Therefore, we investigated whether down-regulation of PKCeta with second generation antisense oligonucleotides (ODNs) would sensitise A549 human lung carcinoma cells to cytostatics. The effects were compared to the outcome of Bcl-xL down-regulation. Upon treatment with antisense ODNs, PKCeta and Bcl-xL were both significantly reduced on mRNA and protein level. Down-regulation of either PKCeta or Bcl-xL in combination with vincristine or paclitaxel resulted in a significant increase in caspase-3 activity compared to that in the control oligonucleotide treated cells. In addition, PKCeta down-regulation augmented vincristine-induced dissipation of mitochondrial transmembrane potential. In conclusion, these results confirm that PKCeta might represent a considerable resistance factor and an interesting target to improve anticancer chemotherapy.
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PMID:Down-regulation of protein kinase Ceta by antisense oligonucleotides sensitises A549 lung cancer cells to vincristine and paclitaxel. 1515 20

Cytotoxic agents eliminate tumor cells via different mechanisms including apoptosis, although this process is not equally efficient in all kinds of cancer cells. Thus, small cell lung carcinomas (SCLCs) are more sensitive than non-small cell lung carcinomas (NSCLCs) to therapy-induced killing. During apoptosis, several apoptogenic proteins release from the mitochondria. Among these proteins is Smac/DIABLO. Overexpression of Smac effectively potentiates apoptosis by neutralizing the caspase-inhibitory function of the inhibitors of apoptosis proteins (IAPs). However, the physiological relevance of endogenously released Smac in the promotion of malignant cell death is still unclear. Analysis of a panel of human lung cancer cell lines revealed that there is no altered Smac expression in NSCLC and SCLC that might initially impair the drug-induced cell death. Upon engagement of the mitochondrial pathway of apoptosis, etoposide provoked cytosolic accumulation of Smac along with cytochrome c and loss of the mitochondrial membrane potential. Most of these events as well as nuclear apoptotic changes required caspase activation in SCLC, but not in NSCLC. Unexpectedly, pan-caspase inhibition had no effect on Smac release. Co-treatment of SCLC with the IAP-binding peptide Smac-N7 enhanced etoposide-induced apoptosis in a concentration-dependent manner, whereas Smac downregulation by small interfering RNA (siRNA) did not influence caspase-3/-7 activities, nuclear morphological changes, DNA fragmentation, and plasma membrane integrity. Release of cytochrome c and mitochondrial protease Omi/HtrA2 is still detectable at these conditions. These data suggest that Smac deficiency may be compensated for by action of redundant determinants to kill cancer cells. Thus, translocation of endogenous Smac into cytosol does not play a critical role in cell death of human lung carcinoma after etoposide treatment.
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PMID:Endogenously released Smac is insufficient to mediate cell death of human lung carcinoma in response to etoposide. 1524 64

Parathyroid hormone-related protein (PTHrP)-(1-34) and PTHrP-(140-173) protect lung cancer cells from apoptosis after ultraviolet (UV) irradiation. This study evaluated upstream signaling in PTHrP-mediated alteration of lung cancer cell sensitivity to apoptosis. The two peptides increased cAMP levels in BEN lung cancer cells by 15-35% in a dose-dependent fashion, suggesting signaling through protein kinase A (PKA). In line with this view, the PKA inhibitor H89 abrogated the protective effects of PTHrP-(1-34) and PTHrP-(140-173) against caspase activation and DNA loss. PKA activation by forskolin, 3-isobutyl-1-methylxanthine (IBMX), or 8-(4-chlorophenylthio)adenosine 3',5'-cyclic monophosphate attenuated and H89 augmented apoptosis after UV exposure as indicated by caspase-3 activation, cell DNA loss, and morphological criteria. Studies with IBMX and varying doses of forskolin indicated that small increases in cAMP, on the order of those generated by IBMX alone and the PTHrP peptides, were sufficient to protect lung cancer cells from apoptosis. In summary, PTHrP-(1-34) and PTHrP-(140-173) stimulate PKA in lung carcinoma cells and protect cells against UV-induced caspase-3 activation and DNA fragmentation. PKA activation by other means also induces resistance to apoptosis, and the protective effect of the PTHrP peptide is blocked by PKA inhibition. Thus PKA appears to have a role in the regulatory effects of PTHrP on lung cancer cell survival.
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PMID:Parathyroid hormone-related protein regulates apoptosis in lung cancer cells through protein kinase A. 1528 96

In this study, we investigated the role of reduced glutathione (GSH) and nuclear factor-kappaB (NFkappaB) in hypoxia-induced apoptosis. Hypoxia caused p53-dependent apoptosis in murine embryonic fibroblasts transfected with Ras and E1A. N-Acetyl-l-cysteine (NAC) but not other antioxidants, such as the vitamin E analog trolox and epigallocatechin-3-gallate, enhanced hypoxia-induced caspase-3 activation and apoptosis. NAC also enhanced hypoxia-induced apoptosis in two human cancer cell lines, MIA PaCa-2 pancreatic cancer cells and A549 lung carcinoma cells. In murine embryonic fibroblasts, all three antioxidants blocked hypoxia-induced reactive oxygen species formation. NAC did not enhance hypoxia-induced cytochrome c release but did enhance poly-(ADP ribose) polymerase cleavage, indicating that NAC acted at a post-mitochondrial level. NAC-mediated enhancement of apoptosis was mimicked by incubating cells with GSH monoester, which increased intracellular GSH similarly to NAC. Hypoxia promoted degradation of an inhibitor of kappaB(IkappaBalpha), NFkappaB-p65 translocation into the nucleus, NFkappaB binding to DNA, and subsequent transactivation of NFkappaB, which increased X chromosome-linked inhibitor of apoptosis protein levels. NAC failed to block degradation by IkappaBalpha and sequestration of the p65 subunit of NFkappaB to the nucleus. However, NAC did abrogate hypoxia-induced NFkappaB binding to DNA, NFkappaB-dependent gene expression, and induction of X chromosome-linked inhibitor of apoptosis protein. In conclusion, NAC enhanced hypoxic apoptosis by a mechanism apparently involving GSH-dependent suppression of NFkappaB transactivation.
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PMID:N-Acetyl-L-cysteine enhances apoptosis through inhibition of nuclear factor-kappaB in hypoxic murine embryonic fibroblasts. 1537 56

The role of the ubiquitin-proteasome pathway during roscovitine induced apoptosis was evaluated in the non-small cell lung carcinoma cell line MR65. To this end specific inhibitors of proteasome activity, MG132 and lactacystin were used. Addition of MG132 or lactacystin, 1 h prior to the addition of the CDK-inhibitor roscovitine to the cell cultures inhibited apoptosis significantly, as measured by PS exposure, cytokeratin 18 cleavage and caspase-3 activation. Furthermore, we show that inhibition of proteasome activation prior to induction of apoptosis by roscovitine prevents loss of mitochondrial inner transmembrane potential (DeltaPsim). In addition we found that MG132 and lactacystin prevent release of cytochrome c from the mitochondrion. In contrast to the above findings we see no effect of proteasome inhibition in Fas-mediated apoptosis. Taken together our data suggest a specific role for proteasomes very early in roscovitine-induced apoptosis, upstream from the caspase cascade and mitochondrion.
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PMID:Proteasomes act in the pre-mitochondrial signal transduction route towards roscovitine-induced apoptosis. 1549 36

Exposure to environmental radiation and the application of new clinical modalities, such as radioimmunotherapy, have heightened the need to understand cellular responses to low dose and low-dose rate ionizing radiation. Many tumor cell lines have been observed to exhibit a hypersensitivity to radiation doses <50 cGy, which manifests as a significant deviation from the clonogenic survival response predicted by a linear-quadratic fit to higher doses. However, the underlying processes for this phenomenon remain unclear. Using a gel microdrop/flow cytometry assay to monitor single cell proliferation at early times postirradiation, we examined the response of human A549 lung carcinoma, T98G glioma, and MCF7 breast carcinoma cell lines exposed to gamma radiation doses from 0 to 200 cGy delivered at 0.18 and 22 cGy/min. The A549 and T98G cells, but not MCF7 cells, showed the marked hypersensitivity at doses <50 cGy. To further characterize the low-dose hypersensitivity, we examined the influence of low-dose radiation on cell cycle status and apoptosis by assays for active caspase-3 and phosphatidylserine translocation (Annexin V binding). We observed that caspase-3 activation and Annexin V binding mirrored the proliferation curves for the cell lines. Furthermore, the low-dose hypersensitivity and Annexin V binding to irradiated A549 and T98G cells were eliminated by treating the cells with pifithrin, an inhibitor of p53. When p53-inactive cell lines (2800T skin fibroblasts and HCT116 colorectal carcinoma cells) were examined for similar patterns, we found that there was no hyperradiosensitivity and apoptosis was not detectable by Annexin V or caspase-3 assays. Our data therefore suggest that low-dose hypersensitivity is associated with p53-dependent apoptosis.
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PMID:Low-dose radiation hypersensitivity is associated with p53-dependent apoptosis. 1549 30

We previously demonstrated the doxorubicin-induced urokinase-type plasminogen activator (uPA) expression in human RC-K8 lymphoma cells and NCI-H69 small cell lung carcinoma cells in which reactive oxygen species might be involved. Western blotting analysis revealed phosphorylation/activation of mitogen-activated protein (MAP) kinases, such as extracellular signal-regulated kinase (ERK) 1/2, p38 MAP kinase and stress-activated protein kinase/c-jun N-terminal protein kinase (SAPK/JNK) in doxorubicin-treated RC-K8 and H69 cells, and, therefore, we attempted to identify the MAP kinases implicated in doxorubicin-induced uPA expression by the use of their specific inhibitors. U0126, SB202190 and JNKI-1, inhibitors for MAPK kinase, (MEK) 1/2, p38 MAP kinase and SAPK/JNK, respectively, specifically and clearly inhibited their corresponding kinases. U0126 and SB202190, but not JNKI-1, almost completely inhibited the doxorubicin-induced uPA expression in both RC-K8 and H69 cells. However, U0126 rather enhanced the doxorubicin-induced activation of caspase-3 and poly ADP-ribose polymerase (PARP), and U0126 itself activated caspase-3 and PARP. Interestingly, JNKI-1 inhibited the doxorubicin-induced activation of caspase-3 and PARP. Therefore, doxorubicin treatment activates the above three kinases, but different MAP kinase signaling is responsible in the doxorubicin-induced caspase activation and expression of uPA. Thus, we could possibly manipulate the direction of doxorubicin-induced MAP kinase activation and the effects of doxorubicin on the tumor cell biology by the use of MAP kinase inhibitors.
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PMID:Involvement of ERK1/2 and p38 MAP kinase in doxorubicin-induced uPA expression in human RC-K8 lymphoma and NCI-H69 small cell lung carcinoma cells. 1555 93

S-phase kinase associated protein (Skp) 2 is an F-box protein required for substrate recognition of the SCF(Skp2) ubiquitin ligase complex. Skp2 is often overexpressed in transformed cells and in various types of tumors. Downregulation or inhibition of Skp2 inhibits growth of breast cancer cells and small-cell lung carcinoma cells. We downregulated Skp2 in T98G glioblastoma cells using small interfering RNA (siRNA). Downregulation induced p27 and caused growth arrest and apoptosis. Downregulation of both Skp2 and p27 increased apoptosis synergistically. Cyclin E levels and cyclin E-CDK2 kinase activity increased dramatically when both Skp2 and p27 were downregulated. Coincidently, Bcl-2 but not Bcl-xL expression decreased, and caspase-3 was activated. Inhibition of cyclin E-CDK2 kinase activity by forced expression of p21 reversed these effects. Moreover, stable expression of Bcl-2 also abrogated apoptosis induced by downregulation of Skp2 and p27. We suggest that Skp2 in tumor cells suppresses apoptosis through Bcl-2 expression, potentially through regulation of cyclin E-CDK2 activity.
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PMID:Downregulation of Skp2 and p27/Kip1 synergistically induces apoptosis in T98G glioblastoma cells. 1560 73

Luteolin is an active compound from the Lonicera japonica (Caprifoliaceae). Luteolin (50 microM)-induced human lung carcinoma CH27 cell apoptosis is a typical apoptosis that was accompanied by a significant DNA condensation and apoptotic body formation. Luteolin-induced apoptosis is related to its ability to change the expression of apoptotic markers, such as caspase-3 (caspase-dependent) and apoptosis-inducing factor (caspase-independent) protein expression. The alkaline microgel electrophoresis technique (comet assay), which is the most sensitive, was used for estimation of the luteolin-induced DNA single strand breaks in this study. DNA-damaging effects of luteolin on DNA single strand breaks have been demonstrated in our study. In this study, luteolin induced S-phase cell cycle arrest and increased the mRNA of DNA repair enzymes such as human MutT homologue, 8-oxoguanine-glycosylase and apurinic endonuclease. Our data suggested that luteolin induces CH27 cell apoptosis by caspase-dependent and -independent pathway and the effect of luteolin on apoptosis of CH27 cells is associated with DNA damage and the expression of DNA repair enzymes.
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PMID:Luteolin induced DNA damage leading to human lung squamous carcinoma CH27 cell apoptosis. 1568 Feb 56

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