Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P10415 (Bcl-2)
 33,771 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Vascular endothelial cells are primary targets of cytokine-induced cell death leading to tissue injury. We previously reported that TNF in combination with LY294002, a PI3K inhibitor, activates caspase-independent cell death initiated by cathepsin B (Cat B) in HUVEC. We report that TNF in the presence of IFN-gamma activates Cat B as well as a caspase death pathway in both HUVEC and human dermal microvascular endothelial cells, but only activates caspase-mediated death in HeLa cells and human embryonic kidney (HEK)293 cells. Like LY294002, IFN-gamma triggers Cat B release from lysosomes in HUVEC. Cat B-triggered death involves mitochondria, indicated by release of cytochrome c, loss of mitochondrial membrane potential and inhibition of death by overexpressed Bcl-2. Cat B effects on mitochondria do not depend upon Bid cleavage. Unexpectedly, overexpression of a dominant negative mutated form of Fas-associated death domain protein (FADD), which blocks caspase activation by TNF, potentiates TNF activation of Cat B and cell death in HUVEC. Similarly, mutant Jurkat cells lacking FADD also show increased susceptibility to TNF-induced Cat B-dependent cell death. These observations suggest that the Cat B death pathway is cell type-specific and may contribute to cytokine-mediated human tissue injury and to the embryonic lethality of FADD gene disruption in mice.
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PMID:The cathepsin B death pathway contributes to TNF plus IFN-gamma-mediated human endothelial injury. 1603 29

PS-341 (bortezomib) is a potent and reversible proteosome inhibitor that functions to degrade intracellular polyubiquitinated proteins. PS-341 induces apoptosis and has shown broad antitumor activity with selectivity for transformed cells. We studied the effect of PS-341 on lysosomal and mitochondrial permeabilization, including the role of caspase-2 activation in apoptosis induction in the BxPC-3 human pancreatic carcinoma cell line. PS-341 induced a dose-dependent apoptosis in association with reactive oxygen species generation and cleavage of caspase-2 to its 33- and 14-kDa fragments. PS-341 disrupted lysosomes with redistribution of cathepsin B to the cytosol, as shown using fluorescence confocal microscopy, that was blocked by the free radical scavenger tiron but not by a caspase-2 inhibitor (benzyloxycarbonyl (Z)-VDVAD-fluoromethyl ketone (FMK)). PS-341-induced caspase-2 activation was attenuated by a selective pharmacological inhibitor of cathepsin B (R-3032), suggesting that cathepsin B release occurs upstream of caspase-2. PS-341-induced mitochondrial depolarization was attenuated by Z-VDVAD-FMK, tiron, and an inhibitor of the mitochondrial permeability transition pore (bongkrekic acid). Regulation of mitochondrial permeability by caspase-2 was confirmed using caspase-2 small interfering RNA. PS-341-induced cytochrome c release and phosphatidylserine externalization were attenuated by Z-VDVAD-FMK and partially by R-3032. PS-341 activated the BH3-only proteins Bik and Bim and down-regulated Bcl-2 and Bcl-xL mRNA and protein expression. Taken together, PS-341 induces lysosomal cathepsin B redistribution upstream of caspase-2. Caspase-2 activation regulates PS-341-induced mitochondrial depolarization and apoptosis, suggesting that caspase-2 can serve as a link between lysosomal and mitochondrial permeabilization.
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PMID:PS-341 (bortezomib) induces lysosomal cathepsin B release and a caspase-2-dependent mitochondrial permeabilization and apoptosis in human pancreatic cancer cells. 1644 71

We demonstrate UVA/B to induce apoptosis in human melanocytes through the mitochondrial pathway, displaying cytochrome c release, caspase-3 activation, and fragmentation of nuclei. The outcome of a death signal depends on the balance between positive and negative apoptotic regulators, such as members of the Bcl-2 protein family. Apoptotic melanocytes, containing fragmented nucleus, show translocation of the proapoptotic proteins Bax and Bid from the cytosol to punctate mitochondrial-like structures. Bcl-2, generally thought to be attached only to membranes, was in melanocytes localized in the cytosol as well. In the fraction of surviving melanocytes, that is, cells with morphologically unchanged nucleus, the antiapoptotic proteins Bcl-2 and Bcl-X(L) were translocated to mitochondria following UVA/B. The lysosomal proteases, cathepsin B and D, which may act as proapoptotic mediators, were released from lysosomes to the cytosol after UVA/B exposure. Proapoptotic action of the cytosolic cathepsins was confirmed by microinjection of cathepsin B, which induced nuclear fragmentation. Bax translocation and apoptosis were markedly reduced in melanocytes after pretreatment with either cysteine or aspartic cathepsin inhibitors. No initial caspase-8 activity was detected, excluding involvement of the death receptor pathway. Altogether, our results emphasize translocation of Bcl-2 family proteins to have central regulatory functions of UV-induced apoptosis in melanocytes and suggest cathepsins to be proapoptotic mediators operating upstream of Bax.
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PMID:UVA/B-induced apoptosis in human melanocytes involves translocation of cathepsins and Bcl-2 family members. 1652 66

ATX-s10 is a novel and second-generation photosensitizer for photodynamic therapy (PDT). In order to conduct clinical trials of ATX-s10-PDT and/or extend its clinical applications, it is very important to elucidate the mechanisms of the action of ATX-s10-PDT. We examined the apoptic response against ATX-s10-PDT using a Bcl-2 or Bcl-2 mutant overexpressing cells. Using fluorescent microscopy, ATX-s10 localized not only to mitochondria but also to lysosomes and possibly other intracellular organelles, but not to the plasma membrane or the nucleus. These results suggest that ATX-s10-PDT can damage mitochondria and lysosomes. By Western blot analysis, ATX-s10-PDT damaged Bcl-2, which localized preferentially at mitochondrial membranes, and caused Bcl-2 to cross-link immediately after laser irradiation. However, ATX-s10-PDT was not able to rapidly induce morphologically typical apoptosis (i.e. chromatin condensation and fragmentation) as PDT using mitochondria targeted photosensitizers, such as phthalocyanine 4 (Pc 4). Pharmacological inhibitions of lysosomal cytokine protease cathepsins, such as cathepsin B and D, protected MCF-7c3 cells (human breast cancer cells expressing stably transfected procaspase-3) from apoptosis caused by ATX-s10-PDT. Overexpression of wild-type Bcl-2 or Bcl-2Delta33-54 resulted in relative resistance of cells to ATX-s10-PDT, as assessed by the degree of morphological apoptosis or loss of clonogenicity. We conclude that lysosomal damage by ATX-s10-PDT can initiate apoptotic response and this apoptotic pathway can be regulated by photodamage to Bcl-2 via mitochondrial damage.
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PMID:Lysosomal cathepsin initiates apoptosis, which is regulated by photodamage to Bcl-2 at mitochondria in photodynamic therapy using a novel photosensitizer, ATX-s10 (Na). 1682 Aug 76

The BH3-only death factors share just the short BH3 domain with the other Bcl-2 family subclasses. With the exception of BID, which might also bind to BAX, they are thought to act by binding to and neutralizing Bcl-2 like survival factors.(1) Camptothecin (CPT)-induced apoptosis in breast cancer MCF-7 cells is associated with activation of cathepsin B and aggregation of BAX and BID on mitochondria. BID knock down protects cancer cells against apoptosis and induces autophagy, manifested with increased expression of Beclin 1 and MAP1LC3. The compensatory increase in the concentration of Hrk (another member of the BH3-only protein family) and its co-localization with BCL-2 on organelles in BID(-) breast cancer cells has also been observed. Nonetheless, Hrk is not able to substitute for BID in triggering apoptosis. Its role in autophagy induction is also doubtful, since MAP1LC3 expression was equally high in BID(-)Hrk(-) and BID(-)Hrk(+) breast cancer cells exposed to CPT. We conclude that BID can serve as a molecular switch between apoptosis and autophagy. BID(+) and BID(-) breast cancer MCF-7 cells could be considered to be a useful model for the study of the molecular interdependences between apoptosis and autophagy and the role of both processes in cancer therapy.
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PMID:BID-deficient breast cancer MCF-7 cells as a model for the study of autophagy in cancer therapy. 1687 58

Smooth muscle cells (SMCs) are called on to proliferate during vascular restructuring but must return to a nonproliferative state if remodeling is to appropriately terminate. To identify mediators of the reacquisition of replicative quiescence, we undertook gene expression screening in a uniquely plastic human SMC line. As proliferating SMCs shifted to a contractile and nonproliferative state, expression of TIMP-3, Axl, and KIAA0098 decreased whereas expression of complement C1s, cathepsin B, cellular repressor of E1A-activated genes increased. Wilms' tumor 1-associating protein (WTAP), a nuclear constituent of unknown function, was also upregulated as SMCs became nonproliferative. Furthermore, WTAP in the intima of injured arteries was substantially upregulated in the late stages of repair. Introduction of WTAP complementary DNA into human SMCs inhibited their proliferation, with a corresponding decrease in DNA synthesis and an increase in apoptosis. Knocking down endogenous WTAP increased SMC proliferation, because of increased DNA synthesis and G(1)/S phase transition, together with reduced apoptosis. WTAP was found to associate with the Wilms' tumor-1 protein in human SMCs and WTAP overexpression inhibited the binding of WT1 to an oligonucleotide containing a consensus WT1 binding site, whereas WTAP knockdown accentuated this interaction. Expression of the WT1 target genes, amphiregulin and Bcl-2, was suppressed in WTAP-overexpressing SMCs and increased in WTAP-deficient SMCs. Moreover, exogenous amphiregulin rescued the antiproliferative effect of WTAP. These findings identify WTAP as a novel regulator of the cell cycle and cell survival and implicate a WTAP-WT1 axis as a novel pathway for controlling vascular SMC phenotype.
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PMID:Wilms' tumor 1-associating protein regulates the proliferation of vascular smooth muscle cells. 1709 24

Gliomas are often resistant to the induction of apoptotic cell death as a result of the development of survival mechanisms during astrocyte malignant transformation. In particular, the overexpression of Bcl-2-family members interferes with apoptosis initiation by DNA-damaging agents (e.g., cisplatin) or soluble death ligands (e.g., TRAIL). Using low-passage-number cultures of glioma cells, we have shown that parvovirus H-1 is able to induce death in cells resistant to TRAIL, cisplatin, or both, even when Bcl-2 is overexpressed. Parvovirus H-1 triggers cell death through both the accumulation of lysosomal cathepsins B and L in the cytosol of infected cells and the reduction of the levels of cystatin B and C, two cathepsin inhibitors. The impairment of either of these effects protects glioma cells from the viral lytic effect. In normal human astrocytes, parvovirus H-1 fails to induce a killing mechanism. In vivo, parvovirus H-1 infection of rat glioma cells intracranially implanted into recipient animals triggers cathepsin B activation as well. This report identifies for the first time cellular effectors of the killing activity of parvovirus H-1 against malignant brain cells and opens up a therapeutic approach which circumvents their frequent resistance to other death inducers.
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PMID:Cytosolic activation of cathepsins mediates parvovirus H-1-induced killing of cisplatin and TRAIL-resistant glioma cells. 1728 56

Hexadecylphosphocholine (HePC) is an anticancer agent whose effect has been shown to involve apoptosis induction but the signaling pathways leading to apoptosis remain to be elucidated. We show here that HePC induces activation of caspase-9, -3, and -8 via the intrinsic pathway, release of cytochrome c, activation and relocation of Bax to the mitochondria as well as the cleavage of Bid. Moreover, a lysosomal pathway characterized by partial lysosomal rupture, cathepsin B activation and relocation from lysosomes to the cytosol, is involved in HePC-induced apoptosis. A cathepsin B/L inhibitor partially suppresses caspase activation and apoptosis induction, indicating signaling between lysosomes and mitochondria. Conversely, the pancaspase inhibitor Q-VD-OPH inhibits lysosomal rupture, but only at early time points, suggesting that immediate lysosomal rupture involves caspases. Overexpression of Bcl-2, an anti-apoptotic protein known to prevent mitochondrial dysfunction, totally abrogates lysosomal destabilization and cell death.
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PMID:Lysosomal and mitochondrial pathways in miltefosine-induced apoptosis in U937 cells. 1734 68

The present studies were performed to determine whether lysosomal permeabilization contributes to tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) cytotoxicity and to reconcile a role for lysosomes with prior observations that Bcl-2 family members regulate TRAIL-induced apoptosis. In KMCH cholangiocarcinoma cells stably expressing Mcl-1 small interference RNA (siRNA), treatment with TRAIL induced a redistribution of the cathepsin B from lysosomes to the cytosol. Pharmacological and small hairpin RNA-targeted inhibition of cathepsin B attenuated TRAIL-mediated apoptosis as assessed by morphological, biochemical, and clonogenic assays. Neither Bid siRNA nor Bak siRNA prevented cathepsin B release. In contrast, treatment of the cells with Bim siRNA or the JNK inhibitor SP600125 attenuated lysosomal permeabilization and cell death. Moreover, Bim and active Bax co-localized to lysosomes in TRAIL-treated cells in a JNK-dependent manner, and Bax siRNA reduced TRAIL-induced lysosomal permeabilization and cell death. Finally, BH3 domain peptides permeabilized isolated lysosomes in the presence of Bax. Collectively, these data suggest that TRAIL can trigger an apoptotic pathway that involves JNK-dependent activation of Bim, which in turn induces Bax-mediated permeabilization of lysosomes.
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PMID:Tumor necrosis factor-related apoptosis-inducing ligand activates a lysosomal pathway of apoptosis that is regulated by Bcl-2 proteins. 1768 64

Previous studies found that kainic acid (KA)-induced apoptosis involved the lysosomal enzyme cathepsin B, suggesting a possible mechanism of autophagy in excitotoxicity. The present study was sought to investigate activation and contribution of autophagy to excitotoxic neuronal injury mediated by KA receptors. The formation of autophagosomes was observed with transmission electron microscope after excitotoxin exposure. The contribution of autophagic mechanisms to KA-induced upregulation of microtubule-associated protein 1A/1B light chain 3 (LC3), lysosome- associated membrane protein 2 (LAMP2) and cathepsin B, release of cytochrome c, activation of caspase-3, down-regulation of Bcl-2, upregulation of Bax, p53, puma and apoptotic death of striatal neurons were assessed with co-administration of the autophagy inhibitor 3-methyladenine (3-MA). These studies showed that KA brought about an increase in the formation of autophagosomes and autolysosomes in the cytoplasm of striatal cells. KA-induced increases in the ratio of LC3-II/LC3-I, LAMP2, cathepsin B, release of cytochrome c and activation of caspase-3 were blocked by pre-treatment with 3-MA. 3-MA also reversed KA-induced down-regulation of Bcl-2 and upregulation of Bax protein levels, LC3, p53 and puma mRNA levels in the striatum. KA-induced internucleosomal DNA fragmentation and loss of striatal neurons were robustly inhibited by 3-MA. These results suggest that over-stimulation of KA receptors can activate autophagy. The autophagic mechanism participates in programmed cell death through regulating the mitochondria-mediated apoptotic pathway.
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PMID:An autophagic mechanism is involved in apoptotic death of rat striatal neurons induced by the non-N-methyl-D-aspartate receptor agonist kainic acid. 1809 25


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