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)

B-cell chronic lymphocytic leukemia (B-CLL) remains an incurable disease that requires innovative new approaches to improve therapeutic outcome. Honokiol is a natural product known to possess potent antineoplastic and antiangiogenic properties. We examined whether honokiol can overcome apoptotic resistance in primary tumor cells derived from B-CLL patients. Honokiol induced caspase-dependent cell death in all of the B-CLL cells examined and was more toxic toward B-CLL cells than to normal mononuclear cells, suggesting greater susceptibility of the malignant cells. Honokiol-induced apoptosis was characterized by the activation of caspase-3, -8, and -9 and cleavage of poly(adenosine diphosphate-ribose) polymerase (PARP). Exposure of B-CLL cells to honokiol resulted in up-regulation of Bcl2-associated protein (Bax) and down-regulation of the expression of the key survival protein myeloid-cell leukemia sequence 1 (Mcl-1), which is associated with response to treatment in B-CLL patients. In addition, B-CLL cells pretreated with interleukin-4 (IL-4), a cytokine known to support B-CLL survival, underwent apoptosis when subsequently incubated with honokiol, indicating that honokiol could also overcome the prosurvival effects of IL-4. Furthermore, honokiol enhanced cytotoxicity induced by fludarabine, cladribine, or chlorambucil. These data indicate that honokiol is a potent inducer of apoptosis in B-CLL cells and should be examined for further clinical application either as a single agent or in combination with other anticancer agents.
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PMID:The natural product honokiol induces caspase-dependent apoptosis in B-cell chronic lymphocytic leukemia (B-CLL) cells. 1580 33

We have previously reported that inhibition of polyamine biosynthesis with alpha-difluoromethylornithine (DFMO) reduces pulmonary metastasis from MDA-MB-435 human breast cancer xenografts without affecting the volume of the primary tumors (Manni et al. Clin Exp Mets 20:321, 2003). In these experiments, we show that DFMO treatment (2% in drinking H(2)O) reduced the growth fraction of the primary tumors by 60%. However, this effect was counter-balanced by a similar reduction in non-apoptotic necrosis, thus accounting for the preservation of tumor volume in DFMO-treated mice. DFMO treatment caused a 4-fold increase in cytoplasmic staining for cleaved caspase-3 (as opposed to the nuclear staining observed in control tonsil tissue) in the absence of histologic evidence of apoptosis. DFMO treatment reduced the number of mice with pulmonary metastasis by approximately 80% and the number of metastasis per mouse by >90% in association with a reduction in invasiveness of the primary tumor in the surrounding dermis and muscle by approximately 30%. DFMO treatment increased ERK phosphorylation in the tumors, an effect that has been found by us in vitro to be causally linked to the anti-invasive effect of the drug (Manni et al. Clin Exp Metast 2004; 21: 461]. DFMO also increased tyrosine phosphorylation of STAT-3 and expression of STAT-1 and JNK proteins. Administration of SAM486A (1 mg/kg/i.p. daily), an inhibitor of S-adenosylmethionine decarboxylase, either individually or in combination with DFMO, was not found to exert any biological or biochemical effects, most likely as a result of its failure to suppress tissue polyamine levels under these experimental conditions.
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PMID:Effects of polyamine synthesis inhibitors on primary tumor features and metastatic capacity of human breast cancer cells. 1615 53

Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) is a member of the tumor necrosis factor superfamily that selectively induces apoptosis in malignant cells. However, not all cancer cells are susceptible to TRAIL and mechanisms of resistance and new strategies to enhance sensitivity are an area of intense investigation. Glucose withdrawal or paclitaxel increase intracellular ceramide, down-regulate cellular FLICE inhibitory protein (cFLIP), and sensitize cells to TRAIL. Therefore, we investigated whether TRAIL resistance is due to ceramide levels and/or defects in ceramide generation following ligand binding. Colon cancer cells isolated from the primary tumor (SW480) and a subsequent metastasis (SW620) of the same patient have different sensitivities to TRAIL. Mass spectrometry was used to compare ceramide content in untreated and TRAIL-treated cells. Overall levels of ceramide were comparable in the cell lines but TRAIL-sensitive SW480 cells contained a higher percentage of C(16)-, and C(18)-ceramide and lower C(24)-ceramides than TRAIL-resistant SW620 cells. Upon TRAIL treatment, ceramide (primarily C(16)-ceramide) increased in SW480 but not SW620 cells. The increase in ceramide occurred with slow kinetics, paralleling caspase-3/7 activation. Combination of C(6)-ceramide with TRAIL resulted in apoptosis of SW620 cells. However, exogenous C(6)-ceramide did not affect levels of cFLIP nor did pretreatment sensitize cells to TRAIL. Exposure to TRAIL prior to ceramide was required to induce apoptosis, suggesting that ceramide plays a role in enhancing or amplifying TRAIL-mediated signaling. Our results suggest that ceramide plays a role in promoting TRAIL-mediated apoptosis and that TRAIL-resistant cancers may benefit from combination therapy with ceramide or agents that enhance ceramide accumulation.
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PMID:Resistance to TRAIL is associated with defects in ceramide signaling that can be overcome by exogenous C6-ceramide without requiring down-regulation of cellular FLICE inhibitory protein. 1617 23

The mouse breast cancer cell lines 4T1, 4T07, and 67NR are highly tumorigenic but vary in metastatic potential: 4T1 widely disseminates, resulting in secondary tumors in the lung, liver, bone, and brain; 4T07 spreads to the lung and liver but is unable to establish metastatic nodules; 67NR is unable to metastasize. The Bcl-2/adenovirus E1B 19 kDa interacting protein-3 (Bnip-3) was recently shown to be absent after hypoxia in pancreatic cancer cell lines whereas its overexpression restored hypoxia-induced cell death. We found that Bnip-3 expression increased after 6 hours of hypoxia in all cell lines tested but was highest in the nonmetastatic 67NR cells and lowest in the highly metastatic 4T1 cells. Hypoxia-induced expression of Bnip-3 in the disseminating but nonmetastatic 4T07 cells was intermediate compared with 4T1 and 67NR cells. Cleaved caspase-3, a key downstream effector of cell death, increased after 6 hours of hypoxia in the 67NR and 4T07 cells by 1.9- and 2.5-fold, respectively. Conversely, cleaved caspase-3 decreased by 45% in the highly metastatic 4T1 cells after hypoxia. Small interfering RNA oligonucleotides targeting endogenous Bnip-3 blocked cell death and increased clonigenic survival after hypoxic challenge in vitro and increased primary tumor size and enabled metastasis to the lung, liver, and sternum of mice inoculated with 4T07 cells in vivo. These data inversely correlate the hypoxia-induced expression of the cell death protein Bnip-3 to metastatic potential and suggest that loss of Bnip-3 expression is critical for malignant and metastatic evasion of hypoxia-induced cell death.
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PMID:Bcl-2/adenovirus E1B 19 kDa interacting protein-3 knockdown enables growth of breast cancer metastases in the lung, liver, and bone. 1635 80

Plasminogen kringle 5 (K5), a proteolytic fragment of plasminogen, is an endogenous angiogenic inhibitor. We have previously shown that K5 inhibits ischemia-induced retinal neovascularization in a rat model. However, its anti-angiogenic potential and application in the treatment of neoplastic diseases have not been well investigated. Our present study was designed to test its effect on the neovascularization and growth of hepatocellular carcinoma, a typical hypervascular tumor. Recombinant human K5 was expressed in E. coli and purified by affinity chromatography. K5 inhibited proliferation and induced apoptosis of primary endothelial cells in dose-dependent manner, but no effect on pericytes from the same origin of endothelial cells, which suggested an endothelial cell-specific inhibition. Moreover, K5 had no effect on the proliferation and apoptosis of mouse HepA and human Bel7402 hepatoma cell lines even in the enhanced concentration range, which suggested K5 having no direct effect on tumor cells. Ventral injection of K5 significantly suppressed the tumor growth in graphed hepatocarcinoma mice model, which was established by injection of mouse HepA hepatoma cells. In xenografted hepatocarcinoma athymic mice model, which mimicked human tumors by injection of human Bel7402 hepatoma cells, K5 significantly suppressed the tumor growth. An average of 68% suppression of primary tumor growth was observed in the K5-treated mice compared with control group. K5 also inhibited intratumoral neovascularization in the two cancer models determined by micro vessel density (MVD) analysis. Injection of K5 significantly induced the cleavage of pro-caspase-3 in tumor tissues of grafted mouse model, which suggested K5 also induced apoptosis of tumor tissues and the decreased intratumoral microvascular density in K5 treated group may correlate with K5-induced endothelial cell apoptosis. These results suggest that tumor growth suppression of K5 depends on its anti-angiogenic activity and K5 could have therapeutic potential in hepatocellular carcinoma.
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PMID:Kringle 5 of human plasminogen suppresses hepatocellular carcinoma growth both in grafted and xenografted mice by anti-angiogenic activity. 1657 4

Rapid outgrowth of metastases after removal of the primary tumor has been described in several mouse models. Loss of primary tumor-induced inhibition of angiogenesis in the metastases has been suggested as the underlying cause. Accordingly, we recently demonstrated that vascular density in human colorectal liver metastases increases after primary tumor resection. Here, we investigate whether this increase in vascular density has, in its turn, effects on the tumor growth of the liver metastases. We analyzed tumor growth in synchronous liver metastases from patients with the primary tumor in place, in synchronous metastases from patients with the primary tumor resected and in metachronous metastases. Tumor growth was studied by assessing the percentage of cells undergoing apoptosis by activated caspase-3 staining, and the percentage of proliferating cells by Ki-67 staining. While the percentage of proliferating cells within the metastases showed a modest increase after primary tumor resection, a significant decrease in the percentage of apoptotic cells was observed. Taken together, an increased net tumor growth of the metastases occurred after primary tumor resection. This acceleration of tumor growth could be confirmed by studying biopsies taken from the same patient before and after tumor resection. Our data show that in human cancer patients, a primary tumor may inhibit the growth of its liver metastases.
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PMID:Outgrowth of human liver metastases after resection of the primary colorectal tumor: a shift in the balance between apoptosis and proliferation. 1664 75

Atiprimod is a novel cationic amphiphilic compound and has been shown to exert antimyeloma effects both in vitro and in mouse experiments. This study was undertaken to evaluate the therapeutic efficacy of atiprimod on mantle cell lymphoma (MCL) and elucidate the mechanism by which it induces cell apoptosis. Atiprimod inhibited the growth and induced apoptosis of MCL cell lines and freshly isolated primary tumor cells in vitro. More importantly, atiprimod significantly inhibited tumor growth in vivo and prolonged the survival of tumor-bearing mice. However, atiprimod also exhibited lower cytotoxicity toward normal lymphocytes. Atiprimod activated c-Jun N-terminal protein kinases (JNK) and up-regulated the level of Bax, Bad, and phosphorylated Bcl-2, resulting in release of apoptosis-inducing factor (AIF) and cytochrome c from mitochondria and activation and cleavage of caspase-9, caspase-3, and PARP. However, AIF, but not activation of caspases or PARP, was responsible for apoptosis in MCL cells because an AIF inhibitor, but not pan-caspase or paspase-9 inhibitors, completely abrogated atiprimod-induced apoptosis. Taken together, our results demonstrate that atiprimod displays a strong anti-MCL activity. Cell apoptosis was induced mainly via activation of the AIF pathway. These results support the use of atiprimod as a potential agent in MCL chemotherapy.
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PMID:Atiprimod inhibits the growth of mantle cell lymphoma in vitro and in vivo and induces apoptosis via activating the mitochondrial pathways. 1731 53

Liposarcoma, a malignancy of adipose tissue, is the most common soft tissue sarcoma. Patients whose primary tumor cannot be resected or those who have developed metastasis, have poor prognosis since liposarcomas are highly resistant to chemotherapy. We recently generated a spontaneously immortalized cell line, named LS14, from a patient with metastatic liposarcoma. Our goal was to compare the responsiveness of LS14 and SW872 liposarcoma cells to anti-cancer drugs and explore mechanisms of chemoresistance. Using complementary assays for cell viability and number we found that SW872 cells responded robustly to relatively low concentrations of doxorubicin, cisplatin and vinblastine. This reduction in cell viability was due to apoptosis, as evident by phosphatidylserine exposure and caspase 3 cleavage. In contrast, only a high dose of doxorubicin or combination therapy effectively reduced LS14 cell viability and induced apoptosis. LS14 cells showed a higher expression of Bcl-2 and Bcl-xL, but a lower expression of survivin and Bax, than SW872 cells, suggesting that anti-apoptotic proteins contribute to chemoresistance in LS14 cells. Although LS14 cells did not form colonies in soft agar, they generated large tumors and metastases in SCID mice, establishing their tumorigenicity in vivo. In conclusion, LS14 cells are much more resistant to chemotherapy than SW872 cells, making them an excellent model for exploring the efficacy and mechanism of action of anti-cancer drugs in liposarcomas.
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PMID:LS14 cells: a model for chemoresistance in liposarcoma. 1742 41

Crude extracts of Euchresta formosana radix (EFR) have previously been observed to induce the suppression of liver cancer Hep3B cell growth and induce apoptosis in response to overexpression of reactive oxygen species, GADD153, Bax and caspase-3, and to decrease the levels of mitochondrial membrane potential in vitro. In this study, the effect of EFR on cell migration and invasion by the human liver hepatocellular carcinoma (HCC) cell line Hep3B was examined. Hep3B cells treated in vitro with EFR migrated and invaded less than cells treated with phosphate-buffered saline (PBS) as a control. EFR inhibited migration and invasion by down-regulating the production of RhoA and ROCK1, FAK, and matrix metalloproteinase-1, -2, -9 and -10 relative to PBS only. These results show that EFR inhibits invasion and migration by liver cancer cells by down-regulating proteins associated with these processes, resulting in reduced metastasis. Thus, EFR should be considered as a possible therapeutic agent for inhibiting primary tumor growth and preventing metastasis.
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PMID:Crude extracts of Euchresta formosana radix inhibit invasion and migration of human hepatocellular carcinoma cells. 1769 28

Norcantharidin exhibits cytotoxicity in many cancer cell lines, including colorectal cancer (CRC) cells. Its cytotoxic potency on primary CRC cells and other normal constituent cells of the human body remains elusive. This study investigates whether norcantharidin differentially exhibits cytotoxicity on primarily isolated CRC cells and dermal fibroblasts. The in vitro chemosensitivity of norcantharidin was measured using a MTT tetrazolium assay and compared with 73 primary tumor cells from surgically excised colorectal tumors, six human CRC cell lines and dermal fibroblasts. Observations of cytotoxicity to primary tumor cells reveal significant differences among genders and histological types; however, drug-induced chemosensitivity was not correlated with age or clinical stages of CRC patients. Norcantharidin had a similar cytotoxic effect on primary tumor cells and CRC cell lines in a dose-dependent manner. In contrast, normal fibroblasts were more resistant to norcantharidin-induced cytotoxicity than CRC cells. DAPI staining results demonstrated that norcantharidin caused CRC cell apoptosis by nuclear fragmentation and chromatin condensation. The release of cytochrome c and the triggering of caspase-3, -8 and -9 activation mediated apoptotic induction. Conversely, pretreatment with caspases or mitogen-activated protein kinase (MAPK) inhibitors significantly suppressed norcantharidin-induced CRC cytotoxicity. These in vitro results suggest that norcantharidin may be a safe and effective anti-cancer drug for CRC.
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PMID:Involvement of caspase and MAPK activities in norcantharidin-induced colorectal cancer cell apoptosis. 2004 Mar 69

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