UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Multiple signaling pathways, including the c-Jun N-terminal kinase (JNK) pathway, are activated in myocardial ischemia and reperfusion (MI/R) and correlate with cell death. However, the role of the JNK pathway in MI/R-induced cell death is poorly understood. In a rabbit model, we found that ischemia followed by reperfusion resulted in JNK activation which could be detected in cytosol as well as in mitochondria. To address the functional role of the JNK activation, we examined the consequences of blockade of JNK activation in isolated cardiomyocytes under conditions of simulated ischemia. The JNK activity was stimulated approximately sixfold by simulated ischemia and reperfusion (simulated MI). When a dominant negative mutant of JNK kinase-2 (dnJNKK2), an upstream regulator of JNK, and JNK-interacting protein-1 (JIP-1) were expressed in myocytes by recombinant adenovirus, the activation of JNK by simulated MI was reduced 53%. Furthermore, the TNFalpha-activated JNK activity in H9c2 cells was completely abolished by dnJNKK2 and JIP-1. In correlation, when dnJNKK2 and JIP-1 were expressed in cardiomyocytes, both constructs significantly reduced cell death after simulated MI compared to vector controls. We conclude that activation of the JNK cascade is important for cardiomyocyte death in response to simulated ischemia.
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PMID:Activation of the JNK pathway is important for cardiomyocyte death in response to simulated ischemia. 1055 76

Bis (also called Bag-3), identified as a novel Bcl-2-interacting protein, has been shown to enhance anti-cell death activity of Bcl-2. Because ischemia/reperfusion induces expression of Bcl-2, we examined the changes in the pattern of Bis expression in the adult rat hippocampus after transient forebrain ischemia. Western blot analysis with protein extracts from the hippocampus showed that, compared with controls, levels of Bis were markedly increased seven days after ischemia. An immunohistochemical study showed that the expression of Bis increased preferentially in the CA1 and the dentate hilar regions, and peaked at 3-7 days after reperfusion. The temporal and spatial patterns of expression for both Bis and glial fibrillary acidic protein (GFAP) were very similar, and double immunofluorescence histochemistry showed that Bis was expressed in reactive astrocytes, which express GFAP. Immunolabeling of adjacent sections with anti-Bcl-2 and anti-Hsp70 antibodies revealed that the pattern of Bis expression closely correlates with that of Bcl-2, but clearly differs from that of Hsp70. Coexpression of Bis and Bcl-2 in reactive astrocytes was confirmed by double immunofluorescence histochemistry. Our results demonstrate that reactive astrocytes transiently up-regulate Bis after ischemia/reperfusion in the adult rat hippocampus. However, the precise role of Bis in the astrocytic response to ischemia/reperfusion in relation to Bcl-2 remains to be determined.
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PMID:Reactive astrocytes express bis, a bcl-2-binding protein, after transient forebrain ischemia. 1206 64

Caspases are proteases involved in various physiological and pathological processes in the nervous system, including development and pathogenesis. GRASP-1 is a recently identified neuronal substrate of caspase-3-subfamily caspases. It is a Ras-guanine nucleotide exchange factor (RasGEF) that interacts with the glutamate receptor interacting protein (GRIP). This alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionate (AMPA) receptor/GRIP protein complex has been proposed to be involved in AMPA receptor synaptic targeting. The caspase-3 cleavage of GRASP-1 separates the N-terminal RasGEF catalytic domain from the C-terminal GRIP-interacting region, potentially disrupting regulation of the RasGEF activity by GRIP. To examine the regulation and regional distribution of the caspase-3 cleavage of GRASP-1 in vivo, we generated a cleavage site-specific antibody, termed CGP, against the cleaved N-terminal fragment of GRASP-1. Using this antibody, we have examined the caspase cleavage of GRASP-1 during postnatal development and following ischemia in mice. We found that caspase cleavage of GRASP-1 occurs in specific brain regions in a time-dependent manner during development and ischemia. This data provides an important account of the brain areas that might require caspase-3 activity in postnatal development and ischemic damage, which has not been documented. It also demonstrates that the CGP antibody is a powerful tool for studying neuronal activity of the caspase-3-subfamily caspases in vivo.
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PMID:Physiological and pathological caspase cleavage of the neuronal RasGEF GRASP-1 as detected using a cleavage site-specific antibody. 1220 67

The 19 kD interacting protein 3, Nip3/BNIP3, is a pro-apoptotic member of the Bcl-2 family induced during hypoxia via the hypoxia-inducible factor (HIF) 1. BNIP3 has been linked to both apoptotic and necrotic cell death involving mitochondrial permeability transition. Since apoptotic and necrotic mechanisms may occur in brain ischemia, immunohistochemical changes of BNIP3 were studied at 1, 2, 3 and 7 days after transient global brain ischemia (12.5 min) in ventilated normothermic rats. In control brains, BNIP3-like immunoreactivity was moderately strong in neuronal processes or cytoplasm and absent in the nucleus. In the ischemia-vulnerable CA1 neurons, BNIP3-positive granules were seen in the nucleus at 1 and 2 days, and these neurons were damaged at 3 and 7 days. The resistant CA3 neurons showed nuclear BNIP3 labeling by 1 day and then returned to the normal state. BNIP3-positive granules did not overlap with the nucleolus. Constitutively expressed BNIP3 may participate in apoptotic and necrotic processes after brain ischemia. Nuclear location of BNIP3 after brain ischemia indicates a novel role for the regulation of cell survival in neurons or a general disturbance of the nuclear envelope.
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PMID:Nuclear localization of the hypoxia-regulated pro-apoptotic protein BNIP3 after global brain ischemia in the rat hippocampus. 1497 62

We describe the isolation and characterization of a new apaf-1-interacting protein (APIP) as a negative regulator of ischemic injury. APIP is highly expressed in skeletal muscle and heart and binds to the CARD of Apaf-1 in competition with caspase-9. Exogenous APIP inhibits cytochrome c-induced activation of caspase-3 and caspase-9, and suppresses cell death triggered by mitochondrial apoptotic stimuli through inhibiting the downstream activity of cytochrome c released from mitochondria. Conversely, reduction of APIP expression potentiates mitochondrial apoptosis. APIP expression is highly induced in mouse muscle affected by ischemia produced by interruption of the artery in the hindlimb and in C2C12 myotubes created by hypoxia in vitro, and the blockade of APIP up-regulation results in TUNEL-positive ischemic damage. Furthermore, forced expression of APIP suppresses ischemia/hypoxia-induced death of skeletal muscle cells. Taken together, these results suggest that APIP functions to inhibit muscle ischemic damage by binding to Apaf-1 in the Apaf-1/caspase-9 apoptosis pathway.
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PMID:Induced inhibition of ischemic/hypoxic injury by APIP, a novel Apaf-1-interacting protein. 1526 85

Mitogen-activated protein kinase kinase (MKK) 7, a specific upstream activator of Jun N-terminal kinases (JNKs) in the stress-activated protein kinase (SAPK)/JNK signaling pathway, plays an important role in response to global cerebral ischemia. We investigated the subcellular localization of activated (phosphorylated) MKK (p-MKK) 7 using western blotting, immunoprecipitation and immunohistochemistry analysis in rat hippocampus. Transient forebrain ischemia was induced by the four-vessel occlusion method on Sprague-Dawley rats. Our results showed that both protein expression and activation of MKK7 were increased rapidly with peaks at 10 min of reperfusion in the nucleus of the hippocampal CA1 region. Simultaneously, in the cytosol activated MKK7 enhanced gradually and peaked at 30 min of reperfusion. In addition, we also detected JNK-interacting protein (JIP) 1, which accumulated in the perinuclear region of neurons at 30 min of reperfusion. Interestingly, at the same time-point the binding of JIP-1 to p-MKK7 reached a maximum. Consequently, we concluded that MKK7 was rapidly activated and then translocated from the nucleus to the cytosol depending on its activation in the hippocampal CA1 region. To further elucidate the possible mechanism of MKK7 activation and translocation, the antioxidant N-acetylcysteine was injected into the rats 20 min before ischemia. The result showed that the levels of MKK7 activation, translocation and binding of p-MKK7 to JIP-1 were obviously limited by N-acetylcysteine in the cytosol at 30 min after reperfusion. The findings suggested that MKK7 activation, translocation and binding to JIP-1 were closely associated with reactive oxygen species and might play a pivotal role in the activation of the JNK signaling pathway in brain ischemic injury.
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PMID:Activated mitogen-activated protein kinase kinase 7 redistributes to the cytosol and binds to Jun N-terminal kinase-interacting protein 1 involving oxidative stress during early reperfusion in rat hippocampal CA1 region. 1581 52

We report the identification and characterization of a new ischemia/reperfusion-inducible protein (IRIP), which belongs to the SUA5/YrdC/YciO protein family. IRIP cDNA was isolated in a differential display analysis of an ischemia/reperfusion-treated kidney RNA sample. Mouse IRIP mRNA was expressed in all tissues tested, the highest level being in the testis, secretory, and endocrine organs. Besides ischemia/reperfusion, endotoxemia also activated the expression of IRIP in the liver, lung, and spleen. The transporter regulator RS1 was identified as an IRIP-interacting protein in yeast two-hybrid screening. The interaction between IRIP and RS1 was further confirmed in coimmunoprecipitation assays. A possible role of IRIP in regulating transporter activity was subsequently investigated. IRIP overexpression inhibited endogenous 1-methyl-4-phenylpyridinium (MPP+) uptake activity in HeLa cells. The activities of exogenous organic cation transporters (OCT2 and OCT3), organic anion transporter (OAT1), and monoamine transporters were also inhibited by IRIP. Conversely, inhibition of IRIP expression by small interfering RNA or antisense RNA increased MPP+ uptake. We measured transport kinetics of OCT2-mediated uptake and demonstrated that IRIP overexpression significantly decreased V(max) but did not affect K(m). On the basis of these results, we propose that IRIP regulates the activity of a variety of transporters under normal and pathological conditions.
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PMID:IRIP, a new ischemia/reperfusion-inducible protein that participates in the regulation of transporter activity. 1602 87

Our previous studies and the others have strongly suggested that c-Jun N-terminal kinase (JNK) signaling pathway plays a critical role in ischemic brain injury. Here we reported that Tat-JNK binding domain (JBD) of JNK-interacting protein-1 (JIP-1), a smaller 11-mer peptide corresponding to residues 153-163 of murine JIP-1 conjugated to Tat peptide, perturbed the assembly of JIP-1-JNK3 complexes, thus inhibiting the activation of JNK3 induced by ischemia/reperfusion in the vulnerable hippocampal CA1 subregion. As a result, Tat-JBD diminished the increased phosphorylation of c-Jun (a nuclear substrate of JNK) and the increased expression of Fas ligand induced by ischemia/reperfusion in the vulnerable hippocampal CA1 subregion. At the same time, through inhibiting phosphorylation of Bcl-2 (a cytosolic target of JNK) and the release of Bax from Bcl-2/Bax dimers, Tat-JBD attenuated Bax translocation to mitochondria and the release of cytochrome c induced by ischemia/reperfusion. Furthermore, the activation of caspase3 and hydrolyzation of poly-ADP-ribose-polymerase induced by brain ischemia/reperfusion were also significantly suppressed by preinfusion of the peptide Tat-JBD. Importantly, Tat-JBD showed neuroprotective effects on ischemic brain damage in vivo, and administration of the peptide after ischemia also achieved the same effects as preinfusion of the peptide did. Thus, our findings imply that Tat-JBD induced neuroprotection against ischemia/reperfusion in rat hippocampal CA1 region via inhibiting nuclear and non-nuclear pathways of JNK signaling. Taken together, these results indicate that Tat-JBD peptide provides a promising therapeutic approach for ischemic brain injury.
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PMID:Neuroprotection against ischemic brain injury by a small peptide inhibitor of c-Jun N-terminal kinase (JNK) via nuclear and non-nuclear pathways. 1650 11

Bcl-2/adenovirus E1B 19 kDa-interacting protein 3 (BNIP3) is a mitochondrial pro-apoptotic protein that has a single Bcl-2 homology 3 (BH3) domain and a COOH-terminal transmembrane (TM) domain. Al-though it belongs to the Bcl-2 family and can hetero-dimerize with Bcl-2, its pro-apoptotic activity is distinct from those of other members of the Bcl-2 family. For example, cell death mediated by BNIP3 is independent of caspases and shows several characteristics of necrosis. Furthermore, the TM domain, but not the BH3 domain, is required for dimerization, mitochondrial targeting and pro-apoptotic activity. BNIP3 plays an important role in hypoxia-induced death of normal and malignant cells. Its expression is markedly increased in the hypoxic regions of some solid tumors and appears to be regulated by hypoxia-inducible fac-tor (HIF), which binds to a site on the BNIP3 promoter. Silencing, followed by methylation, of the BNIP3 gene occurs in a significant proportion of can-cer cases, especially in pancreatic cancers. BNIP3 also has a role in the death of cardiac myocytes in ischemia. Further studies of BNIP3 should provide insight into hypoxic cell death and may contribute to im-proved treatment of cancers and cardiovascular diseases.
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PMID:Regulation of BNIP3 in normal and cancer cells. 1651 41

Despite 2-methoxyestradiol (2ME2) and tricyclodecan-9-yl-xanthogenate (D609) having multiple effects on cancer cells, mechanistically, both of them down-regulate hypoxia-inducible factor-1alpha (HIF-1alpha) and vascular endothelial growth factor (VEGF). We hypothesize HIF-1alpha plays an essential role in cerebral ischemia as a pro-apoptosis regulator; 2ME2 and D609 decrease the levels of HIF-1alpha and VEGF, that might contribute to protecting brain from ischemia injury. A total of 102 male Sprague-Dawley rats were split into five groups: sham, middle cerebral artery occlusion (MCAO), MCAO + dimethyl sulfoxide, MCAO + 2ME2, and MCAO + D609. 2ME2 and D609 were injected intraperitoneally 1 h after reperfusion. Rats were killed at 24 h and 7 days. At 24 h, 2ME2 and D609 reduce the levels of HIF-1alpha and VEGF (enzyme-linked immunosorbent assay), depress the expression of HIF-1alpha, VEGF, BCL2/adenovirus E1B 19 kDa interacting protein 3 (BNIP3) and cleaved caspase 3 (western blot and immunohistochemistry) in the brain infarct area. Double fluorescence labeling shows HIF-1alpha positive immunoreactive materials are co-localized with BNIP3 and terminal deoxynucleotidyl transferase biotin-dUTP nick end labeling inside the nuclei of neurons. At 7 days, 2ME2 and D609 reduce the infarct volume (2,3,7-triphenyltetrazolium chloride) and blood-brain barrier extravasation, decrease the mortality and improve the neurological deficits. In conclusion, 2ME2 and D609 are powerful agents to protect brain from cerebral ischemic injury by inhibiting HIF-1alpha expression, attenuating the superfluous expression of VEGF to avoid blood-brain barrier disruption and suppressing neuronal apoptosis via BNIP3 pathway.
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PMID:Multiple effects of 2ME2 and D609 on the cortical expression of HIF-1alpha and apoptotic genes in a middle cerebral artery occlusion-induced focal ischemia rat model. 1753 91

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