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)

S-phase kinase associated protein 2 (Skp2) is a member of an F-box family of substrate-recognition subunits of SCF ubiquitin-protein ligase complexes that has been implicated in the ubiquitin-mediated degradation of several key regulators of mammalian G1 progression, including the cyclin-dependent kinase inhibitor p27Kip1, a dosage-dependent tumor suppressor protein. The anti-sense effect was confirmed in two cell lines of oral cancer cells that also exhibited over-expression of the Skp2 protein. In this study, we examined the mechanism responsible for anti-sense-mediated growth inhibition of oral cancer cells in vitro and in vivo. Skp2-anti-sense treatment induced apoptosis characterized by an increase in the early apoptosis, fragmentation of nuclei and activation of caspase-3, -8 and -9. Moreover, the growth of xenograft tumors was markedly suppressed by Skp2-anti-sense treatment. Furthermore, histological specimen revealed apoptotic cell death was increased in Skp2-anti-sense treated tumors. Our results suggest that down-regulation of Skp2 appears to induce apoptosis in oral cancer cells, targeting this molecule could represent a promising new therapeutic approach for this type of cancer.
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PMID:Down-regulation of S-phase kinase associated protein 2 (Skp2) induces apoptosis in oral cancer cells. 1605 17

The promyelocytic leukemia gene (PML) encodes a growth/tumor suppressor protein that is essential for the induction of apoptosis in response to various apoptotic signals. The mechanism by which PML plays a role in the regulation of cell death is still unknown. Our previous study demonstrated that overexpression of PML suppress the growth of bladder cancer cells by inducing apoptosis and cell cycle arrest. To further elucidate the mechanism of PML induced apoptosis in bladder cancer, we constructed a PML inducible stable cell line. We found that the increased expression of PML significantly inhibit the growth of the UM-UC-2/PML clone cells and present apparent massive apoptosis in 24 h post-induction, while the UM-UC-2/PMEP4 cells are not. We also examined the effect of PML on the cell cycle distribution in UM-UC-2 cells. We showed overexpression of PML cause a cell cycle arrest in G1 phase. In additional, increased expression of PML in bladder cancer UM-UC-2 cells reduce Survivin expression and up regulated Caspase-3, and cleaved PARP expression, these suggested that PML might regulate apoptosis through Caspase dependent pathways. Our results demonstrate a novel mechanism of PML-induced apoptosis by down-regulation of Survivin and activation of Caspase dependent pathway.
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PMID:Overexpression of PML induced apoptosis in bladder cancer cell by caspase dependent pathway. 1621 9

A variety of melanoma antigen A (MAGE-A) genes are commonly detected in non-small cell lung cancers. Their biological function is not well characterized but may involve the regulation of apoptosis and cell cycle progression. We hypothesized that MAGE-A4 is involved in the regulation of apoptosis. To investigate this, expression of MAGE-A was evaluated. MAGE-A4 was expressed in 48% of non-small cell lung carcinomas. Ninety percent of lung carcinomas expressing MAGE-A4 were classified as squamous cell carcinomas and 10% were adenocarcinomas. Tumor-free surrounding lung tissue was negative for MAGE-A4. A molecular clone of MAGE-A4 derived from human lung cancer was stably expressed in human embryonic kidney cells (293 cells) to evaluate effects on cell death. Overexpression of MAGE-A4 increased apoptosis as measured by the apoptotic index (P < 0.0001) and caspase-3 activity (P < 0.002). Exposure to 25 micromol/L etoposide, a chemotherapeutic agent, increased the apoptotic effect (P < 0.0001). Furthermore, we show that MAGE-A4 silencing using a small interfering RNA approach results in decreased caspase-3 activity in the squamous cell lung cancer cell line H1703 by 58% (P = 0.0027) and by 24% (P = 0.028) in 293/MAGE-A4 cells. These findings suggest that MAGE-A4 expression may promote tumor cell death, sensitize malignancies to apoptotic stimuli, such as chemotherapeutic agents, and therefore may represent a tumor suppressor protein.
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PMID:Melanoma antigen A4 is expressed in non-small cell lung cancers and promotes apoptosis. 1665 21

Under normoxic conditions the alpha-subunit of hypoxia-inducible factor (HIF-1alpha) protein is targeted for degradation by the von Hippel-Lindau (VHL) tumor suppressor protein acting as an E3 ubiquitin ligase. Recently, we developed a hypoxia-targeting protein, TOP3, which consisted of procaspase-3 with the VHL-mediated protein destruction motif of HIF-1alpha. This design enables procaspase-3 to be regulated similarly with HIF-1alpha, being degraded under normoxia while stabilized under hypoxia. Furthermore, stabilized TOP3 was cleaved by the hypoxic stress-induced endogenous caspases and thus the procaspase-3 was converted to active caspase-3 specifically under hypoxic conditions. These data demonstrated that the VHL-mediated protein destruction motif of HIF-1alpha endowed procaspase-3 with hypoxia-specific cytotoxicity.
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PMID:Mechanism of hypoxia-specific cytotoxicity of procaspase-3 fused with a VHL-mediated protein destruction motif of HIF-1alpha containing Pro564. 1701 Mar 41

RNase L functions as a tumor suppressor protein due to its role in apoptosis during viral infections and various agents treatment. RNase L-mediated apoptosis is accompanied by cytochrome c release from mitochondria and requires caspase-3 activity. It was reported that RNase L is involved in JNK activation during viral infections, and that JNK is essential for apoptosis in response to RNase L activation. However, the proximal signals of RNase L that trigger JNK activation have not as yet been identified, and it is possible that the interactions between RNase L and other proteins play an important role in the RNase L-JNK apoptotic signal pathway. To investigate this hypothesis, we attempted to identify the proteins associated with RNase L using coimmunoprecipitation. In this study, we found that RNase L was associated with other proteins. Here we identified the protein X by LC-MS/MS analysis. We demonstrated that this association was increased in the presence of activated RNase L. Moreover, Protein X was phosphorylated during the activation of RNase L by treatment with cytotoxic agent, ECyd, 1-(3-C-ethynyl-beta-D-ribo-pentofuranosyl) cytosine and 2-5A. To reveal the role of protein X in RNase L-mediated apoptosis, we decreased the level of protein X by a small interfering RNA (siRNA). As a result, protein X deficient cells became resistant to the apoptosis mediated by RNase L, suggesting that protein X is related to RNase L-mediated apoptosis following JNK activation. Therefore, in this study, we report the identification of a novel protein, protein X that transduces between RNase L and JNK signals.
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PMID:A novel apoptotic pathway of 3'-Ethynylcytidine(ECyd) involving the inhibition of RNA synthesis--the possibility of RNase L activated pathway as a target of ECyd. 1802 73

During apoptosis, cytochrome c is released from mitochondria to the cytosol, where it binds Apaf-1. The Apaf-1/cytochrome c complex then oligomerizes either into heptameric caspase-9-activating apoptosome, which subsequently activates caspase-3 and caspase-7, or bigger inactive aggregates, depending on the availability of nucleotide dATP/ATP. A tumor suppressor protein, PHAPI, enhances caspase-9 activation by promoting apoptosome formation through an unknown mechanism. We report here the identification of cellular apoptosis susceptibility protein (CAS) and heat shock protein 70 (Hsp70) as mediators of PHAPI activity. PHAPI, CAS, and Hsp70 function together to accelerate nucleotide exchange on Apaf-1 and prevent inactive Apaf-1/cytochrome c aggregation. CAS expression is induced by multiple apoptotic stimuli including UV irradiation. Knockdown of CAS by RNA interference (RNAi) in cells attenuates apoptosis induced by UV light and causes endogenous Apaf-1 to form aggregates. These studies indicated that PHAPI, CAS, and Hsp70 play an important regulatory role during apoptosis.
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PMID:PHAPI, CAS, and Hsp70 promote apoptosome formation by preventing Apaf-1 aggregation and enhancing nucleotide exchange on Apaf-1. 1843 2

Glioblastoma grows aggressively due to its ability to maintain abnormally high potentials for cell proliferation. The present study examines the synergistic actions of N-(4-hydroxyphenyl) retinamide (4-HPR) and paclitaxel (PTX) to control the growth of rat glioblastoma C6 and RG2 cell lines. 4-HPR induced astrocytic differentiation that was accompanied by increased expression of the tight junction protein e-cadherin and sustained down regulation of Id2 (member of inhibitor of differentiation family), catalytic subunit of rat telomerase reverse transcriptase (rTERT), and proliferating cell nuclear antigen (PCNA). Flow cytometric analysis showed that the microtubule stabilizer PTX caused cell cycle deregulation due to G2/M arrest. This in turn could alter the fate of kinetochore-spindle tube dynamics thereby halting cell cycle progression. An interesting observation was the induction of G1/S arrest by a combination of 4-HPR and PTX, altering the G2/M arrest induced by PTX alone. This was further ratified by the upregulation of tumor suppressor protein retinoblastoma, which repressed the expression of the key signaling moieties to induce G1/S arrest. Collectively, the combination of 4-HPR and PTX diminished the survival factors (e.g., rTERT, PCNA, and Bcl-2) to make glioblastoma cells highly prone to apoptosis with activation of cysteine proteases (e.g., calpain, cathepsins, caspase-8, caspase-3). Hence, the combination of 4-HPR and PTX can be considered as an effective therapeutic strategy for controlling the growth of heterogeneous glioblastoma cell populations.
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PMID:N-(4-Hydroxyphenyl) retinamide potentiated paclitaxel for cell cycle arrest and apoptosis in glioblastoma C6 and RG2 cells. 1928 47

Carcinogenesis is determined based on both cell proliferation and death rates. Recent studies demonstrate that heat shock proteins (HSPs) regulate apoptosis. HLJ1, a member of the DnaJ-like Hsp40 family, is a newly identified tumor suppressor protein closely related to relapse and survival in non-small cell lung cancer (NSCLC) patients. However, its role in apoptosis is currently unknown. In this study, NSCLC cell lines displaying varying HLJ1 expression levels were subjected to ultraviolet (UV) irradiation, followed by flow cytometry. Interestingly, the percentages of apoptotic cells in the seven cell lines examined were positively correlated with HLJ1 expression. Enforcing expression of HLJ1 in low-HLJ1 expressing highly invasive cells promoted UV-induced apoptosis through enhancing JNK and caspase-3 activation in NSCLC. Additionally, UV irradiation led to reduced levels of HLJ1 predominantly in apoptotic cells. The pan-caspase inhibitor, zVAD-fmk and caspase-3-specific inhibitor, DEVD-fmk, prevented UV-induced degradation of HLJ1 by the late stage of apoptosis. Further experiments revealed a non-typical caspase-3 cleavage site (MEID) at amino acid 125-128 of HLJ1. Our results collectively suggest that HLJ1 is a novel substrate of caspase-3 during the UV-induced apoptotic process.
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PMID:HLJ1 is a novel caspase-3 substrate and its expression enhances UV-induced apoptosis in non-small cell lung carcinoma. 2049 79

The S100B-p53 protein complex was discovered in C8146A malignant melanoma, but the consequences of this interaction required further study. When S100B expression was inhibited in C8146As by siRNA (siRNA(S100B)), wt p53 mRNA levels were unchanged, but p53 protein, phosphorylated p53, and p53 gene products (i.e. p21 and PIDD) were increased. siRNA(S100B) transfections also restored p53-dependent apoptosis in C8146As as judged by poly(ADP-ribose) polymerase cleavage, DNA ladder formation, caspase 3 and 8 activation, and aggregation of the Fas death receptor (+UV); whereas, siRNA(S100B) had no effect in SK-MEL-28 cells containing elevated S100B and inactive p53 (p53R145L mutant). siRNA(S100B)-mediated apoptosis was independent of the mitochondria, because no changes were observed in mitochondrial membrane potential, cytochrome c release, caspase 9 activation, or ratios of pro- and anti-apoptotic proteins (BAX, Bcl-2, and Bcl-X(L)). As expected, cells lacking S100B (LOX-IM VI) were not affected by siRNA(S100B), and introduction of S100B reduced their UV-induced apoptosis activity by 7-fold, further demonstrating that S100B inhibits apoptosis activities in p53-containing cells. In other wild-type p53 cells (i.e. C8146A, UACC-2571, and UACC-62), S100B was found to contribute to cell survival after UV treatment, and for C8146As, the decrease in survival after siRNA(S100B) transfection (+UV) could be reversed by the p53 inhibitor, pifithrin-alpha. In summary, reducing S100B expression with siRNA was sufficient to activate p53, its transcriptional activation activities, and p53-dependent apoptosis pathway(s) in melanoma involving the Fas death receptor and perhaps PIDD. Thus, a well known marker for malignant melanoma, S100B, likely contributes to cancer progression by down-regulating the tumor suppressor protein, p53.
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PMID:The calcium-binding protein S100B down-regulates p53 and apoptosis in malignant melanoma. 2058 15

5-Fluorouracil (5-FU) is frequently used in cancer treatment. Previous studies with 5-FU suggest that proapoptotic protein BAX and tumor suppressor protein TP53 are central factors in this process. As the leukemic T cell line Jurkat E6 has mutations in both these genes, we investigated a possible activation of alternative death pathways following 5-FU treatment. Here we show that 5-FU triggers apoptosis in Jurkat cells in a dose-dependent manner. Death responses were only moderately attenuated in the presence of a general caspase inhibitor. However, flow cytometric analysis showed activation of caspase 3 and a slight increase in ROS generation in a time- and dose-dependent manner. Furthermore, we observed 5-FU induced PARP cleavage and notably, reduced expression of antiapoptotic MCL-1L associated with the appearance of proapoptotic MCL-1S. Our results demonstrate the activation of alternative death pathways following treatment with 5-FU, despite mutations in the TP53 and BAX genes.
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PMID:5-fluorouracil-induced death of Jurkat T-cells--a role for caspases and MCL-1. 2103 98

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