Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.22.62 (caspase-9)
7,507 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chloroethylureas (CEU) are soft alkylating agents that covalently bind to beta-tubulin (betaTAC) and affect microtubule polymerization dynamics. Herein, we report the identification of a CEU subset and its corresponding oxazolines, which induce cell growth inhibition, apoptosis, and microtubule disruption without alkylating beta-tubulin (N-betaTAC). Both betaTAC and N-betaTAC trigger the collapse of mitochondrial potential (DeltaPsi(m)) and modulate reactive oxygen species levels, following activation of intrinsic caspase-8 and caspase-9. Experiments using human fibrosarcoma HT1080 respiratory-deficient cells (rho(0)) and uncoupler of the mitochondrial respiratory chain (MRC) showed that betaTAC and N-betaTAC impaired the MRC. rho(0) cells displayed an increased sensitivity toward N-betaTAC as compared with rho(+) cells but, in contrast, were resistant to betaTAC or classic chemotherapeutics, such as paclitaxel. Oxazoline-195 (OXA-195), an N-betaTAC derivative, triggered massive swelling of isolated mitochondria. This effect was insensitive to cyclosporin A and to Bcl-2 addition. In contrast, adenine nucleotide translocator (ANT) antagonists, bongkrekic acid or atractyloside, diminished swelling induced by OXA-195. The antiproliferative activities of the N-betaTACs CEU-025 and OXA-152 were markedly decreased in the presence of atractyloside. Conversely, pretreatment with cyclosporin A enhanced growth inhibition induced by betaTAC and N-betaTAC. One of the proteins alkylated by N-betaTAC was identified as the voltage-dependent anion channel isoform-1, an ANT partner. Our results suggest that betaTAC and N-betaTAC, despite their common ability to affect the microtubule network, trigger different cytotoxic mechanisms in cancer cells. The role of mitochondria in these mechanisms and the potential of N-betaTAC as a new therapeutic approach for targeting hypoxia-resistant cells are discussed.
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PMID:New soft alkylating agents with enhanced cytotoxicity against cancer cells resistant to chemotherapeutics and hypoxia. 1733 62

A fish cell line, fathead minnow (FHM) cell, was used to investigate the alteration of mitochondrial dynamics and the mechanism of apoptosis under Rana grylio virus (RGV) infection. Microscopy observations, flow-cytometry analysis and molecular marker detection revealed the apoptotic fate of the RGV-infected cells. Some typical apoptotic characteristics, such as chromatin condensation, DNA fragmentation and mitochondrial fragmentation, were observed, and significantly morphological changes of mitochondria, including size, shape, internal structure and distribution, were revealed. The mitochondria in RGV-infected cells were aggregated around the viromatrix, and the aggregation could be blocked by colchicine. Moreover, the Deltapsim collapse was induced, and caspase-9 and caspase-3 were activated in the RGV-infected cells. In addition, NF-kappaB activation and intracellular Ca(2+) increase were also detected at different times after infection. The data revealed the detailed dynamics of mitochondrion-mediated apoptosis induced by an iridovirus, and provided the first report on mitochondrial fragmentation during virus-induced apoptosis in fish cells.
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PMID:Mitochondrion-mediated apoptosis induced by Rana grylio virus infection in fish cells. 1755 38

We have investigated the mechanism of antiapoptotic and cell renewal effects of lansoprazole, a proton pump inhibitor, to protect and heal gastric mucosal injury in vivo induced by indomethacin, a non-steroidal anti-inflammatory drug (NSAID). Lansoprazole prevents indomethacin-induced gastric damage by blocking activation of mitochondrial and Fas pathways of apoptosis. Lansoprazole prevents indomethacin-induced up-regulation of proapoptotic Bax and Bak and down-regulation of antiapoptotic Bcl-2 and Bcl(xL) to maintain the normal proapoptotic/antiapoptotic ratio and thereby arrests indomethacin-induced mitochondrial translocation of Bax and collapse of mitochondrial membrane potential followed by cytochrome c release and caspase-9 activation. Lansoprazole also inhibits indomethacin-induced Fas-mediated mucosal cell death by down-regulating Fas or FasL expression and inhibiting caspase-8 activation. Lansoprazole favors mucosal cell renewal simultaneously by stimulating gene expression of prosurvival proliferating cell nuclear antigen, survivin, epidermal growth factor, and basic fibroblast growth factor. The up-regulation of Flt-1 further indicates that lansoprazole activates vascular epidermal growth factor-mediated controlled angiogenesis to repair gastric mucosa. Lansoprazole also stimulates the healing of already formed ulcers induced by indomethacin. Time course study of healing indicates that it switches off the mitochondrial death pathway completely but not the Fas pathway. However, lansoprazole heals mucosal lesions almost completely after overcoming the persisting Fas pathway, probably by favoring the prosurvival genes expression. This study thus provides the detailed mechanism of antiapoptotic and prosurvival effects of lansoprazole for offering gastroprotection against indomethacin-induced gastropathy.
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PMID:Lansoprazole protects and heals gastric mucosa from non-steroidal anti-inflammatory drug (NSAID)-induced gastropathy by inhibiting mitochondrial as well as Fas-mediated death pathways with concurrent induction of mucosal cell renewal. 3188 21

Kynurenic acid (KYNA), a tryptophan metabolite in the kynurenine pathway, is protective against various insults. However, the molecular mechanism of this protective effect has not been identified. In this study, we examined the protective effects of KYNA against 1-methyl-4-phenylpyridinium (MPP(+)), the best-characterized toxin inducing pathological changes resembling Parkinson's disease (PD), using SH-SY5Y and SK-N-SH human neuroblastoma cells. Pre-treatment of KYNA attenuated MPP(+)-induced neuronal cell death in SH-SY5Y and SK-N-SH cells. MPP(+)-induced cell death was preceded by increases in Bax expression and mitochondrial dysfunction, such as collapse of mitochondrial membrane potential (DeltaPsi(m)), release of cytochrome c from mitochondria into the cytoplasm, and increases in caspase-9/-3 activities. KYNA effectively inhibited all of these mitochondrial apoptotic processes. Our results indicate that KYNA plays a protective role by down-regulating Bax expression and maintaining mitochondrial function in MPP(+)-induced neuronal cell death, and suggest that KYNA may have therapeutic potential in PD.
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PMID:Kynurenic acid attenuates MPP(+)-induced dopaminergic neuronal cell death via a Bax-mediated mitochondrial pathway. 1846 30

AMAD, an emodin azide methyl anthraquinone derivative, was extracted from the nature giant knotweed rhizome of traditional Chinese herbs. Here, we investigated the anticancer activities and signaling pathways implicated in AMAD-induced apoptosis in human breast cancer cell lines MDA-MB-453 and human lung adenocarcinoma Calu-3 cells. AMAD was found to have a potent cytotoxic effect on both cell lines. Hoechst 33258 staining and Annexin V/propidium iodide double staining exhibited the typical nuclear features of apoptosis and increased the proportion of apoptotic Annexin V-positive cells in a dose-dependent manner, respectively. Moreover, this apoptotic induction was associated with a collapse of the mitochondrial membrane potential and activated caspases (cysteine aspartase) cascade involving in caspase-8, caspase-9, caspase-3, and poly(ADP-ribose) polymerase cleavage in a concentration-dependent manner. It was noteworthy that AMAD also effectively cleaved Bid, a BH3 domain-containing proapoptotic Bcl-2 family member, and induced the subsequent release of cytochrome c from mitochondria into the cytosol. Furthermore, suppression of caspase-8 activity with Z-IETD-FMK partially inhibited release of cytochrome c and Bid cleavage induced by AMAD, whereas exposure to Z-LETD-FMK, a caspase-9 inhibitor, had no effect. Additionally, there was significant change in other mitochondrial membrane proteins triggered by AMAD, such as Bcl-xl and Bad. It was intriguing that AMAD decreased the generation of reactive oxygen species in both cell lines. DNA-binding assay exhibited apoptosis induced by AMAD was not involved in intercalating to DNA. Taken together, these data suggested that AMAD induced apoptosis via a mitochondrial pathway involving caspase-8/Bid activation in both cell lines.
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PMID:Emodin azide methyl anthraquinone derivative triggers mitochondrial-dependent cell apoptosis involving in caspase-8-mediated Bid cleavage. 1856 40

Naja naja atra cardiotoxin 3 (CTX3) induced apoptotic death on human neuroblastoma SK-N-SH cells. The apoptosis signals of CTX3 included reactive oxygen species (ROS) generation, disruption of mitochondrial membrane potential (DeltaPsim), cytochrome c release to the cytosol and activation of caspase-9 and -3. However, CTX3-induced increase in mitochondrial permeability transition was not initiated by proteins of the Bcl-2 family. The collapse of DeltaPsim, release of cytosolic cytochrome c, production of ROS and subsequent apoptotic cell death in CTX-treated cells could not be completely abolished by either N-acetylcysteine (ROS scavenger) or cyclosporin A (an inhibitor of mitochondrial permeability transition). Co-incubation with rotenone, an inhibitor of mitochondrial electron transport chain complexes I, resulted in partial inhibition of CTX3-induced ROS generation but not the loss of DeltaPsim. Obviously, the dissipation of DeltaPsim was not an upstream event for ROS generation or vice versa. Given that CTX3 was able to induce the leakage of isolated mitochondria, our data indicate that CTX3-induced apoptotic death of SK-N-SH cells is mediated through mitochondrial alteration and ROS generation.
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PMID:Involvement of mitochondrial alteration and reactive oxygen species generation in Taiwan cobra cardiotoxin-induced apoptotic death of human neuroblastoma SK-N-SH cells. 1861 91

We have synthesized novel heterocyclic organobismuth compounds that have potent antibacterial properties. In this study, we examined their anticancer activity and addressed the cellular mechanisms involved. Heterocyclic organobismuth compounds showed anticancer activities in various human cancer cell lines. These compounds have particularly potent anticancer activities against leukemia cell lines. One of them, bi-chlorodibenzo [c,f][1,5] thiabismocine (compound 3), inhibited the growth of the human promyelocytic leukemia cell line HL-60 at a concentration of 0.22 microM. Low concentrations of compound 3 (0.22-0.44 microM) induced apoptosis, whereas at a higher concentration (>1.1 microM) it causes acute necrosis. During the apoptosis, caspase-3, -8, and -9 were activated but caspase-12 was not. A broad caspase inhibitor (z-VAD-fmk), and caspase-3 (z-DEVD-fmk) and caspase-9 (z-LEHD-fmk) inhibitors suppressed the compound 3-induced apoptosis, but a caspase-8 inhibitor (z-IETD-fmk) was less effective, suggesting that the caspase-8 activity only partially participates in the apoptosis. In the apoptotic cells, cytochrome c was released from mitochondria to cytosol and a loss of mitochondrial transmembrane potential (DeltaPsi(m)) was detected. Compound 3-induced apoptosis was associated with enhanced generation of intracellular reactive oxygen species (ROS). Pretreatment of the cells with N-acetyl-L-cysteine or catalase suppressed the apoptosis. On the other hand, buthionine sulfoximine enhanced the compound 3-induced collapse of DeltaPsi(m) and apoptosis. Taken together, these results indicate that compound 3 is a potent inducer of apoptosis, triggering a caspase-3-mediated mechanism via the generation of ROS and release of cytochrome c from mitochondria, suggesting a potential mechanism for the anticancer activity of compound 3.
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PMID:Heterocyclic organobismuth(III) induces apoptosis of human promyelocytic leukemic cells through activation of caspases and mitochondrial perturbation. 1876 Feb 61

The cardiotoxic effects of doxorubicin, a potent chemotherapeutic agent, have been linked to DNA damage, oxidative mitochondrial damage, and nuclear translocation of p53, but the exact molecular mechanisms causing p53 transactivation and doxorubicin-induced cardiomyopathy are not clear. The present study was carried out to determine whether extracellular signal-regulated kinases (ERKs), which are known to be activated by DNA damaging agents, are responsible for doxorubicin-induced p53 activation and oxidative mitochondrial damage in H9c2 cells. Cell death was measured by terminal deoxynucleotidyl transferase dUTP-mediated nick-end labeling, annexin V-fluorescein isothiocyanate, activation of caspase-9 and -3, and cleavage of poly(ADP-ribose) polymerase (PARP). We found that doxorubicin produced cell death in H9c2 cells in a time-dependent manner, beginning at 6 h, and these changes are associated decreased expression of Bcl-2, increases in Bax and p53 upregulated modulator of apoptosis-alpha expression, and collapse of mitochondria membrane potential. The changes in cell death and Bcl-2 family proteins, however, were preceded by earlier activation and nuclear translocation of ERKs, followed by increased phosphorylation at Ser15 and nuclear translocation of the phosphorylated p53. The functional importance of ERK1/2 and p53 in doxorubicin-induced toxicity was further demonstrated by the specific ERK inhibitor U-0126 and p53 inhibitor pifithrin (PFT)-alpha, which abrogated the changes in Bcl-2 family proteins and cell death produced by doxorubicin. U-0126 blocked the phosphorylation and nuclear translocation of both ERK1/2 and p53, whereas PFT-alpha blocked only the changes in p53. Doxorubicin and ERK inhibitors produced similar changes in ERK1/2-p53, PARP, and caspase-3 in neonatal rat cultured cardiomyocytes. Thus we conclude that ERK1/2 are functionally linked to p53 and that the ERK1/2-p53 cascade is the upstream signaling pathway responsible for doxorubicin-induced cardiac cell apoptosis. ERKs and p53 may be considered as novel therapeutic targets for the treatment of doxorubicin-induced cardiotoxicity.
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PMID:ERKs/p53 signal transduction pathway is involved in doxorubicin-induced apoptosis in H9c2 cells and cardiomyocytes. 1877 51

We have investigated the role of mitochondria on the development of indomethacin (a non-steroidal anti-inflammatory drug)-induced gastric mucosal apoptosis and associated gastropathy in rat. Transmission electron microscopic studies indicate that indomethacin damages mitochondrial ultrastructure and causes mitochondrial dysfunction as evident from decreased stage-3 respiration, dehydrogenase activity, and transmembrane potential (DeltaPsi(m)). Mitochondrial pathology is associated with increased generation of intra-mitochondrial-reactive oxygen species, such as O(2)(*), H(2)O(2) and *OH, leading to oxidative stress. O(2)(*) is the most effective to damage mitochondrial aconitase, leading to the release of iron from its iron-sulfur cluster. The released iron, by interacting with intra-mitochondrial H(2)O(2), forms *OH. Immunoprecipitation of mitochondrial aconitase and subsequent Western immunoblotting indicate carbonylation of aconitase along with the loss of activity in vivo after indomethacin treatment. The release of iron has been documented by fluorescence imaging of mucosal cells by using Phen Green SK, a specific probe for chelatable iron. Interestingly, intra-mitochondrial *OH generation is crucial for the development of mitochondrial pathology and activation of mitochondrial death pathway by indomethacin. Scavenging of *OH by dimethyl sulfoxide or alpha-phenyl-n-tert-butylnitrone, a spin-trap, prevents indomethacin-induced mitochondrial ultrastructural changes, oxidative stress, collapse of DeltaPsi(m), and mitochondrial dysfunction. The scavengers also restore indomethacin-induced activation of caspase-9 and caspase-3 to block mitochondrial pathway of apoptosis and gastric mucosal damage. This study, thus, reveals the critical role of O(2)(*)-mediated mitochondrial aconitase inactivation to release intra-mitochondrial iron, which by generating *OH promotes gastric mucosal cell apoptosis and gastropathy during indomethacin treatment.
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PMID:Indomethacin, a non-steroidal anti-inflammatory drug, develops gastropathy by inducing reactive oxygen species-mediated mitochondrial pathology and associated apoptosis in gastric mucosa: a novel role of mitochondrial aconitase oxidation. 1904 74

Selenium, an essential trace element, showed the significant protective effects against liver and kidney damage induced by some heavy metals. However, the mechanism how selenium suppresses cadmium (Cd)-induced cytotoxicity remains unclear. In this study, we investigated the protective mechanism of selenium on Cd-induced apoptosis in LLC-PK(1) cells via reactive oxygen species (ROS) and mitochondria linked signal pathway. Studies of PI and Annexin V dual staining analysis demonstrated that 20 microM Cd-induced apoptosis as early as 18 h. A concomitant by the generation of ROS, the loss of mitochondrial membrane potential, cytochrome c (cyt c) release, activation of caspase-9, -3 and regulation of Bcl-2 and Bax were observed. N-acetylcysteine (NAC, 500 microM), a free radical scavenger, was used to determine the involvement of ROS in Cd-induced apoptosis. During the process, selenium played the same role as NAC. The anti-apoptosis exerted by selenium involved the blocking of Cd-induced ROS generation, the inhibition of Cd-induced mitochondrial membrane potential collapse, the prevention of cyt c release, subsequent inhibition of caspase activation and the changed level of Bcl-2 and Bax. Taken together, we concluded that Cd-induced apoptosis was mediated by oxidative stress and selenium produced a significant protection against Cd-induced apoptosis in LLC-PK(1) via ameliorating the mitochondrial dysfunction.
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PMID:The protection of selenium on ROS mediated-apoptosis by mitochondria dysfunction in cadmium-induced LLC-PK(1) cells. 1913 40


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