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)

The spermine analogue N(1),N(11)-diethylnorspermine (DENSPM) efficiently depletes the cellular pools of putrescine, spermidine and spermine by down-regulating the activity of the polyamine biosynthetic enzymes and up-regulating the activity of the catabolic enzyme spermidine/ spermine N(1)-acetyltransferase (SSAT). In the breast cancer cell line L56Br-C1, treatment with 10 microm DENSPM induced SSAT activity 60 and 240-fold at 24 and 48 h after seeding, respectively, which resulted in polyamine depletion. Cell proliferation appeared to be totally inhibited and within 48 h of treatment, there was an extensive apoptotic response. Fifty percent of the cells were found in the sub-G(1) region, as determined by flow cytometry, and the presence of apoptotic nuclei was morphologically assessed by fluorescence microscopy. Caspase-3 and caspase-9 activities were significantly elevated 24 h after seeding. At 48 h after seeding, caspase-3 and caspase-9 activities were further elevated and at this time point a significant activation of caspase-8 was also found. The DENSPM-induced cell death was dependent on the activation of the caspases as it was inhibited by the general caspase inhibitor Z-Val-Ala-Asp fluoromethyl ketone. The results are discussed in the light of the L56Br-C1 cells containing mutated BRCA1 and p53, two genes involved in DNA repair.
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PMID:Rapid caspase-dependent cell death in cultured human breast cancer cells induced by the polyamine analogue N(1),N(11)-diethylnorspermine. 1184 6

The human breast cancer cell line MCF-7 is deficient in procaspase-3 and in caspase-3-dependent steps in apoptosis due to deletion of the CASP-3 gene. We previously found that the cells transfected with empty vector (MCF-7v cells) were considerably less sensitive to photodynamic treatment in vitro with the phthalocyanine photosensitizer Pc 4 than were the cells stably transfected with human procaspase-3 cDNA (MCF-7c3 cells); however, overall cell killing, as determined by a clonogenic assay, was not affected by the presence of procaspase-3. The present study was undertaken to determine whether photodynamic therapy (PDT) in vivo was dependent on the ability of the cells to carry out the late steps in apoptosis that are catalyzed by this caspase. Xenografts of MCF-7 cells and the isogenic-derived MCF-7v and MCF-7c3 cells were generated in female athymic nude mice implanted with an estrogen pellet. MCF-7c3 xenografts, but not those of the other two lines, continued to express procaspase-3, as revealed by Western blots of proteins from the cells and the xenografts. When the xenografts reached 50-120 mm(3), some were treated with PDT (1mg/kg Pc 4 i.v. followed 48 h later by 150 J/cm(2) light at 672 nm and 150 mW/cm(2)), while others served as controls (no treatment, light alone, or Pc 4 alone). All Pc 4-PDT-treated tumors and none of the controls exhibited either complete or strong partial responses, and complete responses were durable for the entire observation period of 16 days. The responses were not dependent upon the presence of procaspase-3 in the xenografts. The results indicate that the rapid response of Pc 4-PDT-treated tumors in vivo is not due to their ability to carry out the major caspase-3-mediated late steps in apoptosis.
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PMID:Photodynamic therapy of human breast cancer xenografts lacking caspase-3. 1188 Jan 81

Caspase-3 deficiency can limit the efficiency of pro-apoptotic anticancer treatments. Irofulven (hydroxymethylacyl-fulvene, HMAF. MGI 114, NSC 683863) is an antitumor drug, currently in a Phase III and multiple Phase II trials, which can differentiate between tumor and normal cells in apoptosis induction. This study investigated whether apoptosis induced by irofulven requires caspase-3. Irofulven action was compared in breast cancer cells differing in caspase-3 status: deficient MCF-7 cells and proficient MDA-MB-231 cells and in normal human mammary epithelial cells, HMEC. Irofulven induces significant, concentration and time-dependent apoptotic DNA fragmentation in breast cancer cell lines, regardless of caspase-3 status. After 12, 24 and 48 h incubation at 1 microM irofulven (approximately 3 x GI50), fragmented DNA comprised 3.7, 14.1 and 34.6% and 8.4, 12.6 and 20.3% of total DNA in MCF-7 and MDA-MB-231 cells, respectively. Cell viability (trypan blue exclusion) remained largely unaffected during the first 24 h but decreased markedly after 48 h, indicating secondary necrosis. Net losses in cell numbers were apparent at 48 h. Normal HMEC cells were refractory to 1 microM drug with only approximately 3-9% fragmented DNA after 12-48 h, although apoptosis was observed at drug levels >3 microM. The broad-spectrum caspase inhibitor Z-VAD-fmk inhibited irofulven-induced apoptosis of all cell lines at 20 microM with nearly complete abrogation of apoptosis at 100 microM. Irofulven treatment resulted in marginal caspase-3 processing in MDA-MB-231 and HMEC cells. These results indicate that whereas the caspase cascade mediates irofulven- induced apoptosis, caspase-3 is dispensable (supported by NIH CA70091 and CA78706).
Breast Cancer Res Treat 2002 Jan
PMID:Irofulven induces apoptosis in breast cancer cells regardless of caspase-3 status. 1188 39

Exposure of mammalian cells to agents that induce apoptosis results in a rapid and substantial inhibition of protein synthesis. In MCF-7 breast cancer cells, tumor necrosis factor alpha (TNFalpha) and TNF-related apoptosis-inducing ligand inhibit overall translation by a mechanism that requires caspase (but not necessarily caspase-3) activity. This inhibition is associated with the increased phosphorylation of eukaryotic initiation factor (eIF2) alpha, increased association of eIF4E with the inhibitory eIF4E-binding protein (4E-BP1), and specific cleavages of eIF4B and eIF2alpha. All of these changes require caspase activity. The cleavage of eIF4GI, which specifically needs caspase-3 activity, is dispensable for the inhibition of translation in MCF-7 cells. Similar experiments with embryonic fibroblasts from control mice and animals defective for expression of the double-stranded RNA-regulated protein kinase (PKR) reveal requirements for both caspase activity and PKR for inhibition of protein synthesis in response to TNFalpha. In contrast, treatment of cells with the DNA-damaging agent etoposide inhibits protein synthesis equally well in the presence of a pan-specific caspase inhibitor and in the presence or absence of PKR. Surprisingly, the ability of etoposide to cause increased association of eIF4E with 4E-BP1 does require PKR activity. However, our data suggest that neither increased phosphorylation of eIF2alpha nor increased [eIF4E.4E-BP1] complex formation is essential for the inhibition of overall translation by the DNA-damaging agent.
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PMID:Inhibition of protein synthesis in apoptosis: differential requirements by the tumor necrosis factor alpha family and a DNA-damaging agent for caspases and the double-stranded RNA-dependent protein kinase. 1195 83

The resistance of cancer cells to multiple chemotherapeutic agents poses a major problem in the successful treatment of breast cancer. Whether drug resistance is due to changes induced in the drug-exposed tumor cells or represents the selective growth of one or more drug-resistant clones present in the initial tumor remains controversial. Here we provide evidence that the development of multidrug resistance in a human breast cancer cell line (MCF-7) is a result of propagation of an inherently resistant subclone. The drug-resistant MCF-7 (MCF-7/DOX) cells exhibited several phenotypic and genotypic features that were notably distinct from those observed in the parental drug-sensitive (MCF-7/WT) cells. The most striking change was the presence of a full-length functional caspase-3 in MCF-7/DOX cells that was missing in the parental MCF-7/WT cells due to a deletion mutation in the caspase-3 gene. A drug-resistant MCF-7 cell subline (MCF-7/WT/DOX) was established by exposing the MCF-7/WT cells directly to a high dose of doxorubicin and used for determining the phenotypic and genotypic alterations associated with drug resistance. The MCF-7/WT/DOX cells exhibited alterations identical to those of the MCF-7/DOX cells but which were strikingly distinct from the parental MCF-7/WT cell line. These results suggest that drug resistance is an inherent property of some cancer cells that are present in the initial tumor burden and exhibit distinct phenotypic/genotypic alterations.
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PMID:Human breast cancer MCF-7 cell line contains inherently drug-resistant subclones with distinct genotypic and phenotypic features. 1195 83

Tamoxifen increases endometrial cell proliferation and the incidence of endometrial cancer in postmenopausal women. The purpose of this study was to evaluate apoptosis and apoptosis-related factors in endometrium in relation to tamoxifen exposure. We analyzed benign postmenopausal endometrium from breast cancer patients receiving tamoxifen (n = 35) and from controls (n = 24), and endometrial cancer tissue from tamoxifen-treated breast cancer patients (n = 15) and endometrial cancer from women without tamoxifen exposure (n = 51). Apoptosis was examined morphologically, and the percentage of apoptotic epithelial cells was defined as the apoptotic index. In the benign samples, the presence of apoptotic cells was also evaluated immunohistochemically by the expression of caspase-3 and the monoclonal antibody M30. The expression of Fas, FasL, and Bcl-2 was analyzed in all tissue samples. No differences were observed in the mean apoptotic index in benign endometrium in tamoxifen users (0.17%) versus controls (0.08%), or in tamoxifen-exposed (2.46%) versus nonexposed endometrial cancer (2.28%). However, the ratio of the apoptotic index with the previously reported proliferation index was lower in benign endometrium from tamoxifen users than in controls (0.02 +/- 0.026 vs. 0.05 +/- 0.03, Mann-Whitney U <0.005). In benign endometrium FasL was more frequently expressed in tamoxifen-users than in controls (chi(2) <0.05). We conclude that the apoptosis/proliferation ratio in benign endometrium from tamoxifen users is lower than in controls, indicating that the tamoxifen-induced higher proliferation is not compensated for by increased apoptosis. An imbalance between cell proliferation and apoptosis, and possibly suppression of the antitumor immune response by FasL overexpression in tamoxifen-exposed endometrium might play a role in the development of endometrial cancer in tamoxifen users.
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PMID:Apoptosis and apoptosis-associated parameters in relation to tamoxifen exposure in postmenopausal endometrium. 1273 25

Bisphosphonates are well established in the management of cancer-induced bone disease. Recent studies have indicated that these compounds have direct inhibitory effects on cultured human breast cancer cells. Nitrogen-containing bisphosphonates including zoledronic acid have been shown to induce apoptosis associated with PARP cleavage and DNA fragmentation. The aim of this study was to identify the signalling pathways involved. Forced expression of the anti-apoptotic protein bcl-2 attenuated bisphosphonate-induced loss of cell viability and induction of DNA fragmentation in MDA-MB-231 cells. Zoledronic acid-mediated apoptosis was associated with a time and dose-related release of mitochondrial cytochrome c into the cytosol in two cell lines. Rescue of cells by preincubation with a caspase-3 selective inhibitor and demonstration of pro-caspase-3 cleavage products by immunoblotting suggests that at least one of the caspases activated in response to zoledronic acid treatment is caspase-3. In both MDA-MB-231 and MCF-7 breast cancer cells, zoledronic acid impaired membrane localisation of Ras indicating reduced prenylation of this protein. These observations demonstrate that zoledronic acid-mediated apoptosis is associated with cytochrome c release and consequent caspase activation. This process may be initiated by inhibition of the enzymes in the mevalonate pathway leading to impaired prenylation of key intracellular proteins including Ras.
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PMID:The bisphosphonate zoledronic acid impairs Ras membrane [correction of impairs membrane] localisation and induces cytochrome c release in breast cancer cells. 1198 84

The skeleton is the most common site of metastatic disease in breast cancer and the most common site of first distant relapse. Bone metastases in breast cancer are the source of considerable morbidity, including severe pain, pathological fractures, need for radiotherapy or surgery, and hypercalcemia. Bisphosphonates are potent inhibitors of osteoclast-mediated bone resorption, and it is well known that breast cancer cells in bone can stimulate osteoclast formation and activity leading to the release of growth factors and cytokines, which will further stimulate cancer cell growth and their secretion of osteolytic factors. We are thus typically dealing with a vicious cycle, as the bone resorption-induced release of growth factors from the bone matrix will stimulate breast cancer cell growth (probably mainly by IGFs) and the production of the osteolytic factor PTHrP (probably mainly by TGF-beta but also by extracellular calcium). Clodronate, but not the aminobisphosphonates, can be metabolized to an ATP analog that is toxic for osteoclasts. Nitrogen-containing bisphosphonates, such as pamidronate, ibandronate, and zoledronate, interfere with the mevalonate pathway that is crucial to maintain cell membrane integrity. The net result, regardless of the mechanism, is osteoclast apoptosis, notably through the induction of caspase-3. Bisphosphonates are now the standard treatment for cancer hypercalcemia. Repeated bisphosphonate infusions also exert clinically relevant analgesic effects in at least one half of the patients with metastatic bone pain. Most importantly, prolonged administration of bisphosphonates (for at least 1 year) reduces the frequency of morbid skeletal events by 30-40% in breast cancer metastatic to bone and in up to 50% in patients with multiple myeloma. Newer bisphosphonates, such as ibandronate and zoledronate, will simplify the current therapeutic schemes and improve the cost-effectiveness ratio, and they have the potential to improve the therapeutic efficacy, at least in patients with aggressive osteolytic disease or in the adjuvant setting.
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PMID:Bisphosphonates in the treatment of metastatic breast cancer. 1201 36

Selective estrogen receptor modulator is a proven agent for chemoprevention and chemotherapy of cancer. Raloxifene, a mixed estrogen agonist/antagonist, was developed to prevent osteoporosis and potentially reduce the risk of breast cancer. In this study, we examined the effect of raloxifene on the TSU-PR1 cell line. This cell line was originally reported to be a prostate cancer cell line, but recently it has been shown to be a human bladder transitional cell carcinoma cell line. The TSU-PR1 cell line contains high levels of estrogen receptor beta. Following treatment with raloxifene, evidence of apoptosis, including change in nuclear morphology, DNA fragmentation, and cytochrome c release, was observed in a dose-dependent manner in the TSU-PR1 cells (10(-9) to 10(-6) m range). We observed no detectable change in the steady-state levels of Bax, Bcl-2, and Bcl-X(L) following raloxifene treatment. However, raloxifene induced caspase-dependent cleavage of BAD to generate a 15-kDa truncated protein. Overexpression of a double mutant BAD resistant to caspase 3 cleavage blocked raloxifene-induced apoptosis. These results demonstrate that raloxifene induces apoptosis through the cleavage of BAD in TSU-PR1 cells. This molecular mechanism of apoptosis suggests that raloxifene may be a therapeutic agent for human bladder cancer.
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PMID:Raloxifene, a mixed estrogen agonist/antagonist, induces apoptosis through cleavage of BAD in TSU-PR1 human cancer cells. 1208 14

The breast cancer suppressor protein, BRCA1 plays an important role in mediating cell cycle arrest, apoptosis and DNA responses to DNA damage signals. In this study, we show that BRCA1 level is downregulated during UV-induced apoptosis by caspase-3 mediated cleavage. Cleavage of BRCA1 by caspase-3 produced a fragment that contained the C-terminal of the molecule. Accordingly, treatment of cells with caspase-3 inhibitor or mutation of a specific caspase-3 cleavage site (DLLD) at amino acid 1151-1154 of BRCA1 abolished cleavage and consequential accumulation of the BRCA1 C-terminal fragment. Whereas expression of the non-cleavable BRCA1 (D/A 1154) mutant conferred the resistance phenotype to UV-induced cell death, expression of the cleaved BRCA1 C-terminus induced cell death in the absence of UV. Examination of the mechanism of C-terminus-induced cell death revealed that the cleaved fragment triggers the apoptotic response through activation of BRCA1 downstream effectors, GADD45 and JNK. Altogether, results of our study demonstrate a functional role for caspase-3 mediated cleavage of BRCA1 during UV-induced apoptosis.
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PMID:Caspase-3 mediated cleavage of BRCA1 during UV-induced apoptosis. 1214 54

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