UNIPROT:P10415 - FACTA Search

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Query: UNIPROT:P10415 (Bcl-2)
33,771 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nitric oxide (NO) derived from inducible NO synthase has been implicated in cardiac rejection. However, little is known about the role of the reactive nitrogen species peroxynitrite. We examined the protective actions of a peroxynitrite decomposition catalyst, WW85, in an experimental model of acute cardiac rejection. Heterotopic, abdominal transplantation of rat donor hearts was performed. Groups included isografts, allografts, or allografts treated with WW85, cyclosporine, or cyclosporine + WW85. We determined graft survival, histological rejection, and graft function (by in situ sonomicrometry). Intragraft biochemical analysis of cytokines and proapoptotic and antiapoptotic gene expression using reverse transcriptase-polymerase chain reaction were determined. Treatment with WW85 or cyclosporine alone prolonged graft survival, improved graft function, and decreased histological rejection. Graft survival was further significantly (P < 0.001) enhanced by combination treatment. A decrease was also shown in nitrotyrosine, poly(ADP-ribose) polymerase (PARP) activation, and lipid peroxide formation by WW85 that was potentiated when given in combination with cyclosporine. Benefits could not be ascribed to changes in intragraft myeloperoxidase activity. Only combination therapy produced significant decreases in inflammatory cytokine gene expression, suggesting that WW85 acted primarily downstream of these stimuli. In general, WW85 had no direct action on expression of the proapoptotic gene, Fas ligand; however, WW85 given alone or with cyclosporine enhanced expression of antiapoptotic genes Bcl-2 and Bcl-xL. Collectively, these findings suggest a protective action of the peroxynitrite decomposition catalyst WW85 on graft rejection that is independent of any action on leukocyte sequestration and cytokine gene expression. Rather, effects seem to be downstream on decreased protein nitration, decreased lipid peroxidation, and decreased PARP activation.
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PMID:Protective mechanisms of a metalloporphyrinic peroxynitrite decomposition catalyst, WW85, in rat cardiac transplants. 1578 53

Stem cell research offers unique opportunities for developing new medical therapies for devastating diseases and a new way to explore fundamental questions of biology. Establishing an efficient freezing protocol for neural precursor cells (NPCs) is of great importance for advances in cell-based therapies. We used fluorescence-activated cell sorter-based cell death/survival analysis and Western blot analysis of proliferation markers (proliferating cell nuclear antigen) and prosurvival proteins (Bcl-2) to study the effect of a variety of cryoprotective agents on fetal mouse forebrain NPCs. Neurospheres frozen at -70 degrees C or in liquid nitrogen in a rate-controlled manner and thawed after 5 days retained viability of 60%-70% measured 24 hours after thawing. However, 1 week after thawing, viability dropped to 50%-60%. Using a clonogenic sphere formation assay, we showed that recovery rate of frozen NPCs was approximately 26% and did not significantly differ between dimethyl sulfoxide (DMSO)- and glycerol-supplemented samples. Application of the caspase inhibitor zVAD-fmk during freezing or in the first week after thawing resulted in protection of cryopreserved neurospheres after thawing but not during the freezing process, indicating that apoptosis limits recovery of NPCs. Cell survival was not reduced in cells that were enzymatically separated before cryopreservation. Optimal protection of NPCs was achieved when 10% DMSO alone or in a combination with 10% fetal calf serum (FCS) was used. However, 10% glycerol alone was equally effective. Using these protocols, NPCs retained their multipotency and differentiated into both glial (GFAP-positive) and neuronal (Tuj1-positive) cells. Percentage of Tuj1-positive cells in 5% and 10% DMSO, in 10% DMSO + 10% FCS, and in 10% glycerol remained at the same level as before freezing and varied from 5%-7%. We conclude that cryopreservation (up to 1 month at -70 degrees C and up to 1 year in liquid nitrogen) does not markedly alter the rate of proliferation and multipotency of murine neural precursor cells.
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PMID:Cryopreservation does not affect proliferation and multipotency of murine neural precursor cells. 1584 75

Necrotizing enterocolitis (NEC) is characterized by the upregulation of proinflammatory proteins, nitrosative stress, and increased enterocyte apoptosis. We examined the expression and regulation of the Bcl-2/adenovirus EIB 19-kDa-interacting protein 3 (BNIP3), a pro-apoptotic gene regulated by nitric oxide (NO) in hepatocytes, in NEC. Newborn rats subjected to hypoxia and fed a conventional formula by gavage (FFH) developed NEC and demonstrated elevated expression of BNIP3 mRNA and protein in mucosal scrapings of the ileal samples and in the liver. In contrast, control rats [breast-fed (BF) without hypoxia] did not develop NEC or elevated BNIP3 expression in these tissues. BNIP3 expression paralleled the histological manifestation of NEC. Supplementation of the formula with L-Nomega-(1-iminoethyl)lysine, an inducible NO synthase inhibitor, reduced BNIP3 expression in FFH animals to the levels found in BF animals. Both hypoxia and peroxynitrite upregulated BNIP3 protein expression in human intestinal cells. Finally, ileal samples obtained from infants undergoing surgical resection for acute NEC demonstrated higher levels of BNIP3 protein. Because hypoxia and formation of reactive nitrogen species may promote gut barrier failure, we propose that upregulation of the cell death-related protein BNIP3 is one possible mechanism associated with enterocyte cell death observed in the intestine with NEC.
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PMID:Intestinal and hepatic expression of BNIP3 in necrotizing enterocolitis: regulation by nitric oxide and peroxynitrite. 1600 67

Benzo[a]pyrene (B[a]P) is present in environmental pollution and cigarette smoke. B[a]P has been shown to induce apoptosis in hepatoma cells, human B cells, human ectocervical cells, macrophages, and rat lungs. Nitrogen oxides (NOx) are the other important indoor and outdoor air pollutants. Many studies have indicated that NO gas causes lung tissue damage both by its oxidative properties and free radicals. In our previous study we demonstrated that NO gas induced proliferation of human lung fibroblast MRC-5 cells. In this study we showed that NO gas inhibits B[a]P-induced MRC-5 cells apoptosis by cell cycle analysis. Western blot data revealed that NO gas increased the expressions of anti-apoptosis proteins (Bcl-2 and Mcl-1) and decreased the expression of apoptosis proteins (Bax, t-Bid, cytochrome c, FasL, and caspases) after B[a]P treatment. We further clarified that B[a]P-induced MRC-5 cell apoptosis via JNK1/FasL and JNK1/p53 signals. In conclusion, NO gas inhibited B[a]P-induced MRC-5 cells apoptosis via inhibition of JNK1 apoptosis pathway and induction of Bcl-2 and Mcl-1 anti-apoptosis pathway.
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PMID:Gaseous nitrogen oxide repressed benzo[a]pyrene-induced human lung fibroblast cell apoptosis via inhibiting JNK1 signals. 1604 17

The molecular mechanisms responsible for the cellular effects of the nitrogen-containing bisphosphonate zoledronic acid (Zol) were assessed on several osteosarcoma cell lines differing in their p53 and retinoblastoma (Rb) status. Zol inhibited cell proliferation and increased atypical apoptosis. The Zol effects on proliferation were due to cell cycle arrest in S and G2/M phases subsequent to the activation of the intra-S DNA damage checkpoint with an increase in P-ATR, P-chk1, Wee1, and P-cdc2 levels and a decrease in cdc25c, regardless of the p53 and Rb status. In addition, the atypic apoptosis induced by Zol was independent of caspase activation, and it was characterized by nuclear alterations, increased Bax expression, and reduced Bcl-2 level. Furthermore, mitochondrial permeability was up-regulated by Zol independently of p53 in association with the translocation of apoptosis-inducing factor (AIF) and endonuclease-G (EndoG). Zol also disturbed cytoskeletal organization and cell junctions and inhibited cell migration and phosphorylation of focal adhesion kinases. The main difficulty encountered in treating cancer relates to mutations in key genes such as p53, Rb, or proteins affecting caspase signaling carried by many tumor cells. We have demonstrated for the first time that zoledronic acid activated the DNA damage S-phase checkpoint and the mitochondrial pathway via AIF and EndoG translocation, and it inhibited cell proliferation and induced cell death, bypassing these potentials mutations. Therefore, zoledronic acid may be considered as an effective therapeutic agent in clinical trials of osteosarcoma in which mutation for p53 and Rb very often occur, and where current treatment with traditional chemotherapeutic agents is ineffective.
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PMID:Zoledronic acid activates the DNA S-phase checkpoint and induces osteosarcoma cell death characterized by apoptosis-inducing factor and endonuclease-G translocation independently of p53 and retinoblastoma status. 1705 Aug 6

Reactive oxygen or nitrogen species (ROS/RNS) generated endogenously or in response to environmental stress have long been implicated in tissue injury in the context of a variety of disease states. ROS/RNS can cause cell death by nonphysiological (necrotic) or regulated pathways (apoptotic). The mechanisms by which ROS/RNS cause or regulate apoptosis typically include receptor activation, caspase activation, Bcl-2 family proteins, and mitochondrial dysfunction. Various protein kinase activities, including mitogen-activated protein kinases, protein kinases-B/C, inhibitor-of-I-kappaB kinases, and their corresponding phosphatases modulate the apoptotic program depending on cellular context. Recently, lipid-derived mediators have emerged as potential intermediates in the apoptosis pathway triggered by oxidants. Cell death mechanisms have been studied across a broad spectrum of models of oxidative stress, including H2O2, nitric oxide and derivatives, endotoxin-induced inflammation, photodynamic therapy, ultraviolet-A and ionizing radiations, and cigarette smoke. Additionally ROS generated in the lung and other organs as the result of high oxygen therapy or ischemia/reperfusion can stimulate cell death pathways associated with tissue damage. Cells have evolved numerous survival pathways to counter proapoptotic stimuli, which include activation of stress-related protein responses. Among these, the heme oxygenase-1/carbon monoxide system has emerged as a major intracellular antiapoptotic mechanism.
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PMID:Mechanisms of cell death in oxidative stress. 1711 87

The aim of this study was to compare the roles of dihydropyridine calcium antagonists nifedipine, nitrendipine, amlodipine on doxorubicin (DXR)-induced nephrotoxicity in rats using biochemical, histopathological and immunohistochemical approaches. Male Sprague-Dawley rats were randomly divided into five experimental groups: control; DXR; DXR+nifedipine (15 mg/kg); DXR+nitrendipine (10 mg/kg); DXR+amlodipine (5 mg/kg). Results showed that treatment with DXR alone caused significant changes in the levels of urinary protein, serum creatinine (SCr), and blood urea nitrogen (BUN). Co-administration with amlodipine effectively reversed the effect of DXR on these parameters. In contrast, nifedipine and nitrendipine either had no effect or worsened DXR induced changes in the levels of urinary protein, SCr and BUN. Furthermore, DXR treatment caused significant increases in the levels of malondialdehyde (MDA), nitric oxide (NO), nitric oxide synthase (NOS) and significant decreases in the levels of reduced glutathione (GSH), glutathione-S-transferase (GST), and superoxide dismutase (SOD). These effects were significantly reduced by co-administration with amlodipine but not affected by nifedipine and worsened by nitrendipine. In addition to the biochemical changes, histopathological studies showed that DXR caused significant structural damages in the kidneys. Glomerular cell apoptosis, a decrease in Bcl-2 expression and an increase in Bax expression were observed in all rats treated with DXR. Co-administration with amlodipine effectively reversed the effect of DXR while nifedipine and nitrendipine had no effect. In conclusion, this study clearly indicated that amlodipine protected against DXR-induced nephrotoxicity while nifedipine and nitrendipine had no effect.
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PMID:Differential effects of dihydropyridine calcium antagonists on doxorubicin-induced nephrotoxicity in rats. 1723 20

Adriamycin is an effective anthracycline anti-tumor antibiotic. However, the clinical use of adriamycin has been restricted by its serious side effects. Some reports indicated that the side effects of adriamycin could cause systemic injury, in which reactive oxygen species (ROS) play an important role. ROS are a large family of oxygen free radical and non-free radical active oxygen-containing molecules, including superoxide radical, hydrogen peroxide and hydroxyl radical, which contribute to oxidative stress. Although antioxidant treatment is a promising method to prevent the side effects, protection by a single antioxidant is limited. The Chinese herbal medicine ANTIOXIN is a multiple antioxidant that can effectively block oxidative stress. It was hypothesized that ANTIOXIN could effectively reduce the side effects of adriamycin. A rat tumor model with a transplanted tumor in the liver was treated with adriamycin and ANTIOXIN was used as a protection. Oxidative stress and antioxidant enzymes were evaluated. The results showed that adriamycin chemotherapy increased the level of malondialdehyde (MDA), nitrogen oxide (NO) and decreased the activities of total superoxide dismutase (T-SOD), manganese superoxide dismutase (MnSOD), catalase (CAT), glutathione (GSH) and total antioxidant capacity (TAC). Adriamycin chemotherapy also decreased the expression of Bcl-2, increased the expression of iNOS and cell apoptosis in the liver and kidney. Multiple antioxidants ANTIOXIN had an antagonistic effect on these changes and significantly decreased the mortality of the experimental rats. These data demonstrated that adriamycin chemotherapy could cause oxidative stress to the whole body, on which multiple antioxidants based on the theory of 'multiple antioxidant chain' had effective protection.
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PMID:Protection of multiple antioxidants Chinese herbal medicine on the oxidative stress induced by adriamycin chemotherapy. 1758 87

A growing body of evidence suggests oxidative stress involvement in neurodegenerative diseases; however, it remains to be determined whether oxidative stress is a cause, result, or epiphenomenon of the pathological processes. This review concerns the current issue, focusing on Alzheimer disease (AD), Parkinson disease (PD), and amyotrophic lateral sclerosis (ALS). Several studies have indicated that oxidative stress initially occurs in the disease-specific, site-restricted sources such as amyloid-beta in the cerebral cortex of AD brain, alpha-synuclein in the brain stem of PD brain, and glutamate receptor-coupled Ca2+ channel in the motor system of ALS spinal cord. Subsequent events in the neurons common to these diseases are glutamate-induced neurotoxicity and increased cytosolic Ca2+ levels, resulting in activation of Ca2+ -dependent enzymes including NADPH oxidase, cytosolic phospholipase A2, xanthine oxidase, and neuronal nitric oxide synthase (NOS). These enzymes produce reactive oxygen and nitrogen species (ROS/RNS), which oxidatively modify nucleic acid, lipid, sugar, and protein, leading to nuclear damage, mitochondrial damage, proteasome inhibition, and endoplasmic reticulum (ER) stress. Mitochondrial damage results in both ROS leakage from the electron transport system and Ca2+ release. Nuclear damage induces p53 activation, and proteasome inhibition reduces p53 degradation. The resultant increased p53 levels in the nucleus induce Bax activation and Bcl-2 inhibition, followed by a release of cytochrome c into the cytosol that truncates procaspase-9. ER stress triggers activation of caspase-12 as well as caspase-9 via the tumor necrosis factor (TNF) receptor-associated factor-2 / apoptosis-signaling kinase-1 / c-Jun N-terminal kinase pathway. Oxidative stress also stimulates astrocytes and microglia to yield and secrete cytokines such as TNFa and FasL that cause not only neuronal caspase-8 activation but also glial inflammatory response through induction of nuclear factor-kappaB-mediated, proinflammatory gene products including cytokines, chemokines, growth factors, cell adhesion molecules, and ROS/RNS-producing enzymes. The activated caspases truncate procaspase-3 to exert classical apoptosis. Moreover, oxidative DNA damage leads to the release and nuclear truncation of mitochondrial apoptosis-inducing kinase, which triggers apoptosis-like programmed cell death via cyclophilin A. These observations could indicate crucial implications for oxidative stress in several steps of the pathomechanisms of neurodegenerative diseases.
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PMID:[The role for oxidative stress in neurodegenerative diseases]. 1830 64

Parkinson's disease (PD) is characterized by selective depletion of nigral dopamine (DA) neurons containing neuromelanin (NM), suggesting the involvement of NM in the pathogenesis. This study reports induction of apoptosis by NM in SH-SY5Y cells, whereas protease-K-treated NM, synthesized DA- and cysteinyl dopamine melanin showed much less cytotoxicity. Cell death was mediated by mitochondria-mediated apoptotic pathway, namely collapse of mitochondrial membrane potential, release of cytochrome c, and activation of caspase 3, but Bcl-2 over-expression did not suppress apoptosis. NM increased sulfhydryl content in mitochondria, and a major part of it was identified as GSH, whereas dopamine melanin significantly reduced sulfhydryl levels. Western blot analysis for protein-bound GSH demonstrated that only NM reduced S-glutathionylated proteins in mitochondria and dissociated macromolecular structure of complex I. Reactive oxygen and nitrogen species were required for the deglutathionylation by NM, which antioxidants reduced significantly with prevention of apoptosis. These results suggest that NM may be related to cell death of DA neurons in PD and aging through regulation of mitochondrial redox state and S-glutathionylation, for which NM-associated protein is absolutely required. The novel function of NM is discussed in relation to the pathogenesis of PD.
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PMID:Neuromelanin selectively induces apoptosis in dopaminergic SH-SY5Y cells by deglutathionylation in mitochondria: involvement of the protein and melanin component. 1839 61

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