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)

Fas-mediated apoptosis is an important regulatory mechanism for the development of T-cells and prevention of oncogenesis. Here, we establish Chinese hamster ovary (CHO) cell lines which stably express Fas antigen, and analyzed apoptosis induced by anti-Fas IgM. While Fas-transfected hamster cells did not undergo apoptosis when stimulated with anti-Fas antibody in the presence of medium containing 10% serum, in reduced serum concentrations, anti-Fas antibody caused these cells to round up and detach from the culture dish. Analysis of the DNA content by a flow cytometry demonstrated a significant increase of cells with sub-G1 amount of DNA upon Fas stimulation in the low serum concentrations. The increase in the number of apoptosis cells was inhibited by an apopain (CPP32, caspase 3) inhibitor or insulin-like growth factor-I. In contrast, apoptosis in a Fas-transfected mouse T-cell line occurred in the presence of 10% serum. these results suggest that factors including insulin-like growth factor-I in fetal bovine serum protect CHO cells from apopain-dependent apoptosis mediated by Fas-antigen stimulation.
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PMID:Alleviation of apoptosis by serum in Chinese hamster ovary cells ectopically expressing human Fas antigen. 966 63

The PML gene of acute promyelocytic leukaemia (APL) encodes a cell growth and tumour suppressor, however, the mechanisms by which PML suppresses tumorigenesis are poorly understood. We show here that Pml is required for Fas- and caspase-dependent DNA-damage-induced apoptosis. We also found that Pml is essential for induction of programmed cell death by Fas, tumour necrosis factor alpha (TNF), ceramide and type I and II interferons (IFNs). As a result, Pml-/- mice and cells are protected from the lethal effects of ionizing radiation and anti-Fas antibody. Pml is required for caspase 1 and caspase 3 activation upon exposure to these stimuli. The PML-RAR alpha fusion protein of APL renders haemopoietic progenitor cells resistant to Fas-, TNF- and IFN-induced apoptosis with a lack of caspase 3 activation, thus acting as a Pml dominant-negative product. These results demonstrate that Pml is a mediator of multiple apoptotic signals, and implicate inhibition of apoptosis in the pathogenesis of APL.
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PMID:PML is essential for multiple apoptotic pathways. 980 33

Deregulation of cell death pathways is an important feature of tumorigenesis. Fas, a member of the tumor necrosis factor receptor superfamily, is a transmembrane protein that can transduce cell death signals via a proteolytic cascade upon crosslinking or ligand binding. Fas has been implicated in the cell turnover of normal stratified squamous epithelia. To determine if altered Fas mediated cell death pathways participate in epithelial tumorigenesis, we examined squamous cell carcinoma (SCC) lines for sensitivity to Fas ligand (FasL) or an agonistic anti-Fas antibody. All cell lines examined were resistant to FasL mediated cell death. The carcinoma cell line SCC71 was also highly resistant to anti-Fas antibody. Another line, SCC9, underwent rapid cell death with characteristic features of apoptosis after exposure to anti-Fas antibody. However, binding of both FasL and anti-Fas antibody recruited downstream effector molecules to the Fas cytoplasmic domain in both SCC9 and SCC71 cells. Inhibition of the caspase 3- but not the ICE family of cell death proteases blocked apoptosis in SCC9 cells independently of expression of the anti-apoptotic protein bcl2. We concluded that Fas differentially mediates apoptosis in SCC lines by activation of caspase 3 family members but independent of bcl2 expression.
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PMID:Anti-Fas antibody differentially regulates apoptosis in Fas ligand resistant carcinoma lines via the caspase 3 family of cell death proteases but independently of bcl2 expression. 985 79

The inhibitor of apoptosis protein family has been characterized over the past 5 years, initially in baculovirus and more recently in metazoans. The IAPs are a widely expressed gene family of apoptotic inhibitors from both phylogenic and physiologic points of view. The diversity of triggers against which the IAPs suppress apoptosis is greater than that observed for any other family of apoptotic inhibitors including the bcl-2 family. The central mechanisms of IAP apoptotic suppression appear to be through direct caspase and pro-caspase inhibition (primarily caspase 3 and 7) and modulation of and by the transcription factor NF-kappaB. Although evidence for a direct oncogenic role for the IAPs has yet to be delineated, a number of lines of evidence point towards this class of protein playing a role in oncogenesis. The strongest evidence for IAP involvement in cancer is seen in the IAP called survivin. Although not observed in adult differentiated tissue, survivin is present in most transformed cell lines and cancers tested to date. Survivin has been shown to inhibit caspase directly and apoptosis in general, moreover survivin protein levels correlate inversely with 5 year survival rates in colorectal cancer. Recent data has also implicated survivin in cell cycle control. The second line of evidence for IAP involvement in cancer comes from their emerging role as mediators and regulators of the anti-apoptotic activity of v-Rel and NF-kappaB transcription factor families. The IAPs have been shown to be induced by NF-kappaB or v-Rel in multiple cell lines and conversely, HIAP1 and HIAP2 have been shown to activate NF-kappaB possibly forming a positive feed-back loop. Overall a picture consistent with an IAP role in tumour progression rather than tumour initiation is emerging making the IAPs an attractive therapeutic target.
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PMID:The inhibitors of apoptosis (IAPs) and their emerging role in cancer. 991 87

The MDM2 oncoprotein encodes a 90 kDa nuclear phosphoprotein capable of abrogating the growth suppressive functions of p53 and pRb tumor suppressor proteins by direct interaction. Alternative splicing of MDM2 protein coding sequences has been documented during tumor progression in human ovarian and bladder carcinomas. The aim of this study was to determine whether alternative splicing of MDM2 occurs during breast tumorigenesis in mice and humans and whether protein coding sequences were affected. Specimens representing normal and malignant breast tissues from the murine D2 mammary tumor model system and human breast carcinomas were examined. Three distinct mdm2 mRNA transcripts of 3.3, 1.6 and 1.5 kb were detected in normal and malignant murine mammary tissues by Northern blot analysis using a full-length mdm2 cDNA probe. Additional Northern blot analysis using a probe derived from exon 12 of murine mdm2 demonstrated that the 1.5 and 1.6 kb transcripts lack sequences encoding the C-terminus of the protein. No evidence of internal deletions of protein coding sequences of mdm2 was detected in any of the normal mammary tissues or D2 murine mammary tumors examined by reverse transcription PCR (RT-PCR). Three distinct MDM2 transcripts of 6.7, 4.7 and 1.9 kb were detected in malignant human breast tissue by Northern blot analysis using a cDNA probe specific for the complete open reading frame of human MDM2. However, a cDNA probe specific for the last exon of human MDM2 hybridized only to the 6.7 and 4.7 kb transcripts, demonstrating that the 1.9 kb transcript lacked protein coding sequences contained in exon 12. Similarly, no internal deletions were detected in a panel of malignant human breast tissues using RT-PCR and analogous primers within human MDM2. Therefore, breast tumors differ from other solid tumors reported previously in that no internal deletions of MDM2 protein coding sequences were observed. However, the data document the presence of multiple MDM2 mRNA transcripts in both normal and malignant breast tissues. A subset of MDM2 transcripts were shown to lack the last exon which contains sequences coding for the RING and zinc fingers and domains which are targets for caspase-3 mediated proteolytic degradation and are required to target p53 for proteosomal degradation.
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PMID:Expression of MDM2 during mammary tumorigenesis. 1018 33

The Deleted in Colorectal Cancer gene (DCC) encodes a cell surface receptor that belongs to the Ig superfamily. Inactivation of the DCC gene has been implicated in human tumor progression. However, little is known about the biological function of the DCC protein. In the present study, we demonstrated that expression of DCC activated caspase-3 and programmed cell death, or induced G2/M cell cycle arrest in tumor cells. In some cell lines, apoptosis was evident within 24 h of DCC expression. Timing of the appearance of apoptotic cells coincided with that of the cleavage of poly (ADP-ribose) polymerase, a substrate of caspase-3. Expression of the apoptosis inhibitory gene Bcl-2 was not able to abrogate the DCC-induced apoptosis. In the G2/M cycle arrest cells, cdk1 activity was inhibited. Our results suggest that the DCC protein may transduce signals resulting in activation of caspases or inhibition of Cdk1. These data provide a possible mechanism by which DCC suppresses tumorigenesis.
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PMID:Induction of apoptosis and G2/M cell cycle arrest by DCC. 1034 49

Survivin is a member of the inhibitor of apoptosis protein (IAP) family that is believed to play a role in oncogenesis. To elucidate further its physiologic role(s), we have characterized the murine survivin gene and complementary DNA (cDNA). The structural organization of the survivin gene, located on chromosome 11E2, is similar to that of its human counterpart, both containing 4 exons. Surprisingly, 3 full-length murine survivin cDNA clones were isolated, predicting the existence of 3 distinct survivin proteins. The longest open reading frame, derived from all 4 exons, predicts a 140-amino acid residue protein, survivin(140), similar to human survivin, which contains a single IAP repeat and a COOH-terminal coiled-coil domain that links its function to the cell cycle. A second cDNA, which retains intron 3, predicts the existence of a 121-amino acid protein, survivin(121) that lacks the coiled-coil domain. Removal of exon 2-derived sequences by alternative pre-messenger RNA (mRNA) splicing results in a third 40-amino acid residue protein, survivin(40), lacking the IAP repeat and coiled-coil structure. Predictably, only recombinant survivin(140) and survivin(121) inhibited caspase-3 activity. All 3 mRNA species were variably expressed during development from 7.5 days postcoitum. Of the adult tissues surveyed, thymus and testis accumulated high levels of survivin(140) mRNA, whereas survivin(121)-specific transcripts were detected in all tissues, while those representing survivin(40) were absent. Human counterparts to the 3 survivin mRNA transcripts were identified in a study of human cells and tissues. The presence of distinct isoforms of survivin that are expressed differentially suggests that survivin plays a complex role in regulating apoptosis. (Blood. 2000;95:1435-1442)
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PMID:Three differentially expressed survivin cDNA variants encode proteins with distinct antiapoptotic functions. 1118 74

Induction of apoptosis seems to be a key function in maintaining normal cell growth by exerting negative controls on cell proliferation and suppressing tumorigenesis. The adenovirus E1A oncogene shows both cell cycle progression and apoptotic functions. To understand the mechanism of E1A-induced apoptosis, the apoptotic function of E1A 13S was investigated in p53-null cells. We show here that E1A is sufficient by itself to induce substantial apoptosis independent of p53 and other adenoviral genes. The apoptotic function of E1A is accompanied by processing of caspase-3 and cleavage of poly(ADP-ribose)-polymerase. Cell death is significantly blocked by the caspase inhibitor zVAD-fmk and when coexpressed with E1B19K, Bcl-2 or the retinoblastoma protein (RB). Analyses of E1A mutants indicated that the apoptotic activity of E1A correlates closely with the ability to bind the key regulators of E2F1-induced apoptosis, p300 and RB. Finally, in vivo relevance of down-modulation of p53-independent apoptosis for efficient transformation is demonstrated.
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PMID:E1A is sufficient by itself to induce apoptosis independent of p53 and other adenoviral gene products. 1071 32

Impaired function of apoptosis-related genes is deeply involved in oncogenesis and the progression of cancers, and caspase-3 plays a critical role as an executioner of apoptosis. We introduced the caspase-3 gene via an adenovirus (Adv) vector into Alexander hepatoma cells, MCF-7 breast cancer cells, and U251 and U-373MG glioma cells which have different endogenous levels of caspase-3 expression. None of the cell lines underwent apoptosis by overexpression of caspase-3, indicating that induction of caspase-3 alone is not applicable for cancer gene therapy. Next, we investigated whether overexpression of caspase-3 could enhance Fas ligand-mediated apoptosis in these four cell lines. In U-373MG cells, which showed the highest level of expression of surface Fas among the four cell lines, coinfection of the Adv for caspase-3 (Adv-caspase-3) and the Adv for Fas ligand (Adv-FL) induced a remarkably increased degree of apoptosis compared with that induced by the single infection of either Adv-caspase-3 or Adv-FL. Similar results were obtained by cotreatment with anti-Fas antibody in U-373MG cells. These data suggest that when strong proapoptotic upstream stimuli are induced, the level of caspase-3 expression determines the degree of apoptosis in cancer cell lines. In conclusion, overexpression of caspase-3 alone did not induce apoptosis in cancer cells. Both a strong proapoptotic signal and a high expression of caspase-3 were required to induce drastic apoptosis in cancers. This strategy would be highly beneficial for selected cancer patients.
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PMID:Adenovirus-mediated transfer of caspase-3 with Fas ligand induces drastic apoptosis in U-373MG glioma cells. 1077 15

Tyrosine kinase oncoproteins cause simultaneous activation of multiple intracellular signaling pathways. However, the precise mechanisms by which individual pathways induce oncogenesis are not well understood. We have investigated the roles of individual signaling pathways in v-Src-dependent cell growth and survival by inhibiting one particular pathway. v-Src induced constitutive activation of signal transducers and activators of transcription 3 (STAT3), phosphatidylinositol 3-kinase, and Ras in murine Ba/F3 cells and led to factor-independent proliferation. Dominant-negative mutants of STAT3 (STAT3D) and phosphatidylinositol 3-kinase (Deltap85) inhibited v-Src-dependent growth by approximately 60 and approximately 40%, respectively. Moreover, dominant-negative Ras (N17) induced severe apoptosis, which was accompanied by down-regulation of Bcl-2 and activation of caspase-3. Although cells overexpressing Bcl-2 or caspase-3 inhibitors remained viable even when N17 was expressed, the growth was reduced by approximately 85%. During N17- and STAT3D-induced growth suppression, expression of cyclin D2, cyclin D3, c-myc, and c-fos was suppressed by N17, whereas that of cyclin D2, cyclin E, and c-myc was suppressed by STAT3D. Thus, v-Src-activated Ras and STAT3 are involved in distinct but partly overlapping transcriptional regulation of cell cycle regulatory molecules. These results suggest that the full oncogenic activity of v-Src requires simultaneous activation of multiple signalings, in which Ras is particularly required for survival.
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PMID:Full oncogenic activities of v-Src are mediated by multiple signaling pathways. Ras as an essential mediator for cell survival. 1091 73

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