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

This study tests the hypothesis that administration of magnesium sulfate, an antagonist of the NMDA receptor ion-channel, will prevent the hypoxia-induced alteration in the expression and the ratio of Bax and Bcl-2 proteins in cerebral cortical neuronal nuclear membranes. Anesthetized, ventilated and instrumented newborn piglets were divided into three groups: normoxic controls (Nx), untreated hypoxic (Hx), and magnesium sulfate-treated hypoxic (Mg-Hx) groups. Cerebral hypoxia was induced by lowering the FiO2 (0.05-0.07) for 1 h and the cerebral cortex was harvested immediately for isolation of neuronal nuclei and hypoxia was confirmed biochemically by a decrease in the tissue levels of ATP and phosphocreatine (PCr). Brain tissue PCr (micromol/g brain) was 2.74+/-0.77 (Nx), 0.38+/-0.09 (Hx, P<0.05 vs. Nx) and 0.69+/-0.60 (Mg-Hx, P<0.05 vs. Nx). The density of immunoblotted proteins was expressed as absorbance (Axmm(2)). The expression of Bax protein (Axmm(2)) was 222+/-31 (Nx), 279+/-32 (Hx), and 148+/-44 (Mg-Hx, P<0.05 vs. Hx). Bcl-2 protein expression was 77+/-1.0 (Nx), 37+/-5.0 (Hx) and 46+/-15 (Mg-Hx, P<0.05 vs. Nx). The ratio of Bax to Bcl-2 proteins increased more than twofold during hypoxia as compared to normoxia (7:1 Hx vs. 3:1 Nx). However, in the magnesium sulfate-treated group the Bax:Bcl-2 ratio was similar to normoxic controls. The data demonstrate that magnesium sulfate treatment prevents both the hypoxia-induced increase in Bax protein expression and the alteration of Bax:Bcl-2 protein ratios. We suggest that magnesium sulfate treatment before and during hypoxia may decrease hypoxia-induced programmed cell death by maintaining the normal ratio of Bax to Bcl-2 proteins.
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PMID:Expression of Bax and Bcl-2 proteins during hypoxia in cerebral cortical neuronal nuclei of newborn piglets: effect of administration of magnesium sulfate. 1136 46

Previous studies have shown that cerebral tissue hypoxia results in increased expression of Bax protein, thereby altering the ratio of Bax to Bcl-2 or formation of Bax/Bcl-2 heterodimer. Hypoxia also induces the generation of nitric oxide free radicals in the cerebral cortex of newborn animals. The present study tests the hypothesis that tissue hypoxia will result in nitration of Bax and Bcl-2 proteins in the neuronal nuclei of newborn piglets. Studies were performed in 22 piglets, 3-5 days old, divided into normoxic (n = 7), hypoxic (n = 9) and hypoxic + NNLA (n = 6) groups. Hypoxia was induced by decreasing the FiO(2) (5-7%) for 60 min and cerebral hypoxia documented by determining tissue ATP and phosphocreatine (PCr) levels. The density of protein bands was expressed as absorbance (OD x mm(2)). PCr levels were 3.03 +/- 0.85 micromol/g brain in the normoxic group and 0.88 +/- 0.32 micromol/g brain in the hypoxic group (p < 0.001 vs. normoxia) and 0.55 +/- 0.13 (p < 0.001 vs. normoxia) in the NNLA-treated hypoxic group. There was increased nitration of Bax protein in hypoxic neuronal nuclei as compared to normoxic and NNLA-treated-hypoxic group nuclei: 211.61 +/- 25.93 versus 124.8 +/- 14.88 and 133.86 +/- 7.42 OD x mm(2), respectively (p < 0.001 vs. normoxia). Nitration of Bcl-2 was not altered significantly in either group. We conclude that there is increased nitric oxide-mediated nitration of Bax in cortical neuronal nuclei during hypoxia and that this increase correlates inversely with the decrease in tissue energy levels. We speculate that, during hypoxia, nitration of Bax and Bcl-2 proteins may regulate heterodimer formation and activation of programmed cell death mechanisms.
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PMID:Nitration of Bax and Bcl-2 proteins during hypoxia in cerebral cortex of newborn piglets and the effect of nitric oxide synthase inhibition. 1180 79

The present study tests the hypothesis that nitric oxide mediates the hypoxia-induced increase in expression of Bax and in DNA fragmentation in the cerebral cortex of newborn piglets, and that administration of N-nitro-L-arginine (NNLA), a nitric oxide synthase inhibitor, will prevent a change in hypoxia-induced expression of apoptotic genes and DNA damage. Piglets were assigned to normoxic, hypoxic, or NNLA-pretreated hypoxic groups. Cerebral tissue hypoxia was documented biochemically by measuring ATP and phosphocreatine (PCr) levels. Cerebral cortical neuronal nuclei were isolated and nuclear proteins were separated electrophoretically and probed with specific antibodies against Bcl-2 or Bax proteins. Neuronal nuclear DNA from normoxic, hypoxic, and NNLA-pretreated hypoxic animals was isolated, separated by electrophoresis on 1% agarose gel and stained with ethidium bromide. Cerebral hypoxia resulted in an increase in nuclear membrane Bax protein levels from 121.33+/-47.7 optical density (OD)xmm(2) in normoxic to 273.67+/-67.3 ODxmm(2) in hypoxic group (P<0.05 vs. normoxic), but levels in NNLA-pretreated hypoxic group were 155.78+/-48.3 ODxmm(2) (P<0.05 vs. hypoxic, P=NS vs. normoxic). Similarly, cerebral hypoxia resulted in the density of DNA fragments increasing from 1530.3+/-309.8 OD/mm(2) in the normoxic group to 5383.3+/-775 OD/mm(2) in the hypoxic group (P<0.05), while levels in NNLA-pretreated hypoxic group were 3574.0+/-952 OD/mm(2) (P<0.05 compared to hypoxic and normoxic groups). The data show that NNLA-pretreatment prevents the hypoxia-induced increase in Bax expression and DNA fragmentation demonstrating that the hypoxia-induced Bax gene expression and the DNA fragmentation are NO-mediated.
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PMID:Nitric oxide-mediated expression of Bax protein and DNA fragmentation during hypoxia in neuronal nuclei from newborn piglets. 1239 33

The present study tests the hypothesis that a PaCO(2) of 27 mmHg for 1 hr results in increased neuronal nuclear Ca(++)/calmodulin-dependent protein kinase IV (CaM kinase IV) activity, pro-apoptotic protein expression and DNA fragmentation in the cerebral cortex of newborn piglets. Hypocapnic (HC) and normocapnic newborn piglets were studied. Tissue levels of ATP and phosphocreatine (PCr) were lower in the HC group. CaM kinase IV activity and Bax protein density were higher in the HC group. Bcl-2 protein density was the same in both groups, resulting in an increased ratio of Bax/Bcl-2 in the HC group. Density of nuclear DNA fragments was greater in the HC group and varied inversely with ATP and PCr levels. We conclude that hypocapnia (PaCO(2) 27 mmHg) results in increased expression of pro-apoptotic proteins and fragmentation of nuclear DNA in newborn piglets.
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PMID:The effect of hypocapnia (PaCO2 27 mmHg) on CaM kinase IV activity, Bax/Bcl-2 protein expression and DNA fragmentation in the cerebral cortex of newborn piglets. 1462 22

In early studies, we demonstrated that cerebral tissue hypoxia leads to N-methyl-D-aspartate receptor modification and results in increased intracellular Ca2+. Our subsequent studies have demonstrated an alteration in nuclear Ca2+ influx mechanisms and an increase in the nuclear Ca2+ influx after hypoxia. The hypoxia induced nuclear Ca2+ influx increase correlated in a curvilinear function with the increase in the degree of cerebral tissue hypoxia. The activity of nuclear membrane high-affinity Ca2+-ATPase also increased with the increase in cerebral hypoxia. The expression of the proapototic protein Bax increased as an inverse function with cerebral tissue ATP and phosphocreatine concentrations. However,the expression of the antiapoptotic protein Bcl-2 did not increase after hypoxia. Cerebral tissue hypoxia also led to the activation of caspases 3, 8, and 9. Furthermore, our studies demonstrated that the fragmentation of neuronal genomic DNA increased with increase in degree of cerebral tissue hypoxia. Studies presented in this article elucidate nuclear Ca2+ influx and nuclear Ca2+-mediated mechanisms, including signal transduction, apoptotic gene transcription,caspase activation, and nuclear DNA fragmentation, that result in hypoxic neuronal injury in the newborn brain.
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PMID:Nuclear mechanisms of hypoxic cerebral injury in the newborn. 1518 59

Previous studies have shown that cerebral hypoxia results in increased tyrosine phosphorylation of cerebral cortical cell membrane proteins as well as nuclear membrane anti-apoptotic protein, Bcl-2. The present study tests the hypothesis that hypoxia results in increased protein tyrosine kinase activity in cortical cell membranes of newborn piglets and that the inhibition of neuronal NOS by administration of 7-nitroindazole sodium salt (7-NINA), a selective inhibitor of nitric oxide synthase (NOS), will prevent the hypoxia-induced increase in protein tyrosine kinase activity. To test this hypothesis, protein tyrosine kinase activity was determined in cerebral cortical membranes of 2- to 4-day-old newborn piglets divided into normoxic (n=6), hypoxic (n=5) and 7-NINA-treated hypoxic (n=5) (7-NINA, 1mg/kg, i.p., prior to hypoxia) groups. Tissue hypoxia was achieved by exposing the animals to an FiO(2) of 0.07 for 60 min and was documented biochemically by determining tissue ATP and phosphocreatine (PCr) levels. Cortical P(2) membranes were isolated and protein tyrosine kinase activity determined by (33)P incorporation into a specific peptide substrate for 15 min at 37 degrees C in a medium containing 100 mM HEPES, pH 7.0, 1mM EDTA, 125 mM MgCl(2), 25 mM MnCl(2), 2mM DTT, 0.2 mM sodium orthovanadate, 2mM EGTA, 150 microM tyrosine kinase peptide substrate [Lys 19] cdc2(6-20)-NH(2), (33)P-ATP, and 10 microg of membrane protein. Protein tyrosine kinase activity was determined by the difference between (33)P incorporation in the presence and absence of specific peptide substrate and expressed as pmol/mg protein/h. The ATP values in the normoxic, hypoxic and 7-NINA-treated hypoxic animals were ATP: 4.57+/-0.45 micromol/g, 1.29+/-0.23 micromol/g (p<0.05 versus normoxic) and 1.50+/-0.14 micromol/g brain (p<0.05 versus normoxic), respectively. The PCr values in the normoxic, hypoxic and 7-NINA-treated hypoxic animals were: 3.77+/-0.36 micromol/g, 0.77+/-0.13 micromol/g (p<0.05 versus normoxic) and 1.02+/-0.24 micromol/g brain (p<0.05 versus normoxic), respectively. Protein tyrosine kinase activity in the normoxic, hypoxic and the 7-NINA-treated groups was 378+/-77 pmol/mg protein/h, 854+/-169 pmol/mg protein/h (p<0.05 versus normoxic) and 464+/-129 pmol/mg protein/h (p<0.05 versus hypoxic), respectively. The data show that cerebral tissue hypoxia results in increased protein tyrosin kinase activity in cortical membranes of newborn piglets and pretreatment with 7-NINA prevents the hypoxia-induced increase in protein tyrosine kinase activity. We conclude that the hypoxia-induced increase in protein tyrosine kinase activity is NO-mediated. We propose that the hypoxia-induced increase in protein tyrosine kinase activity leading to increased phosphorylation of Bcl-2 is a critical link to hypoxic neuronal injury pathway.
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PMID:Effect of hypoxia on protein tyrosine kinase activity in cortical membranes of newborn piglets--the role of nitric oxide. 1553 Oct 99

There is significant controversy over the effects of hypercapnia on the human newborn brain. Previous studies have shown that 1 h of an arterial CO2 pressure (Paco2) of 80 mm Hg alters brain cell membrane Na+K+-ATPase enzyme activity in the cerebral cortex of newborn piglets. The present study tests the hypothesis that hypercapnia (either a Paco2 of 65 or 80 mm Hg) results in decreased energy metabolism and alters neuronal nuclear enzyme activity and protein expression, specifically Ca++/calmodulin-dependent kinase (CaMK) IV activity, phosphorylation of cAMP response element binding protein (CREB), and expression of apoptotic proteins in cortical neuronal nuclei of newborn piglets. Studies were performed in 20 anesthetized normoxic piglets ventilated at either a Paco2 of 65 mm Hg, 80 mm Hg, or 40 mm Hg for 6 h. Energy metabolism was documented by ATP and phosphocreatine (PCr) levels. Results show ATP and PCr levels were significantly lower in the hypercapnic groups than the normocapnic. CaMK IV activity, phosphorylated CREB density, and Bax protein expression were all significantly higher in the hypercapnic groups than the normocapnic group. Bcl-2 protein was similar in all three groups, making the ratio of Bax/Bcl-2 significantly higher in the hypercapnic groups than in the normocapnic group. We conclude that hypercapnia alters neuronal energy metabolism, increases phosphorylation of transcription factors, and increases the expression of apoptotic proteins in the cerebral cortex of newborn piglets and therefore may be deleterious to the newborn brain.
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PMID:Hypercapnia-induced modifications of neuronal function in the cerebral cortex of newborn piglets. 1558 83

The present study tested the hypothesis that magnesium sulfate administration prior to hypoxia prevents hypoxia-induced increase in Ca(2+)/Calmodulin-dependent-kinase (CaM Kinase) IV and Protein Tyrosine Kinase (PTK ) activities. Animals were randomly divided into normoxic (Nx), hypoxic (Hx) and magnesium-pretreated hypoxic (Mg(2+)-Hx) groups. Cerebral hypoxia was confirmed biochemically by measuring ATP and phosphocreatine (PCr) levels. CaM Kinase IV and PTK activities were determined in Nx, Hx and Mg(2+)-Hx newborn piglets. There was a significant difference between CaM kinase IV activity (pmoles/mg protein/min) in Nx (270 +/- 49), Mg(2+)-Hx (317 +/- 82) and Hx (574 +/- 41, P < 0.05 vs. Nx and Mg(2+)-Hx) groups. Similarly, there was a significant difference between Protein Tyrosine Kinase activity (pmoles/mg protein/h) in normoxic (378 +/- 68), Mg(2+)-Hx (455 +/- 67) and Hx (922 +/- 66, P < 0.05 vs. Nx and Mg(2+)-Hx ) groups. We conclude that magnesium sulfate administration prior to hypoxia prevents hypoxia-induced increase in CaM Kinase IV and Protein Tyrosine Kinase activities. We propose that by blocking the NMDA receptor ion-channel mediated Ca(2+)-flux, magnesium sulfate administration inhibits the Ca(2+)/calmodulin-dependent activation of CaMKIV and prevents the generation of nitric oxide free radicals and the subsequent increase in PTK activity. As a result, phosphorylation of CREB and Bcl-2 family of proteins is prevented leading to prevention of programmed cell death.
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PMID:Effects of magnesium sulfate administration during hypoxia on CaM kinase IV and protein tyrosine kinase activities in the cerebral cortex of newborn piglets. 1647 97

The present study tests the hypothesis that cerebral hypoxia results in increased ratio of Bax/Bcl-2, activation of caspase-9, lipid peroxidation, and DNA fragmentation in mitochondria of the cerebral cortex of newborn piglets and that the inhibition of nitric oxide synthase by N-nitro-L-arginine during hypoxia will prevent the events leading to mitochondrial DNA fragmentation. To test this hypothesis, six piglets, 3-5 days old, were divided into three groups: normoxic (n=5), hypoxic (n=5), and hypoxic-nitric oxide synthase (n=4). Hypoxic animals were exposed to a FiO2 of 0.6 for 60 min. Nitric oxide synthase (40 mg/kg) was infused over 60 min prior to hypoxia. Tissue hypoxia was confirmed by measuring levels of ATP and phosphocreatine. Cerebral cortical tissue mitochondria were isolated and purified using a discontinuous ficoll gradient. Mitochondrial Bax and Bcl-2 proteins were determined by Western blot. Caspase-9 activity in mitochondria was determined spectro-fluorometrically using fluorogenic substrate for caspase-9. Fluorescent compounds, an index of mitochondrial membrane lipid peroxidation, were determined spectrofluorometrically. Mitochondrial DNA was isolated and separated by electrophoresis on 1% agarose gel and stained with ethidium bromide. ATP levels (micromol/g brain) were 4.52+/-0.34 in normoxic, 1.18+/-0.29 in hypoxic (P<0.05) and 1.00+/-0.26 in hypoxic-nitric oxide synthase animals (P<0.05 vs. normoxic). Phosphocreatine levels (micromol/g brain) were 3.61+/-0.33 in normoxic, 0.70+/-0.20 in hypoxic (P<0.05 vs. normoxic) and 0.57+/-0.14 in hypoxic-nitric oxide synthase animals (P<0.05 vs. normoxic, P=NS vs. hypoxic). Bax density in mitochondrial membranes was 160+/-28 in normoxic and 324+/-65 in hypoxic (P<0.001 vs. normoxic). Bcl-2 density mitochondria was 96+/-18 in normoxic and 98+/-20 in hypoxic (P=NS vs. normoxic). Mitochondrial caspase-9 activity (nmol/mg protein/h) was 1.32+/-0.23 in normoxic and 2.25+/-0.24 in hypoxic (P<0.01 vs. normoxic). Levels of fluorescent compounds (microg of quinine sulfate/g protein) were 12.48+/-4.13 in normoxic and 37.92+/-7.62 in hypoxic (P=0.003 vs. normoxic). Densities (ODxmm2) of low molecular weight DNA fragments were 143+/-38 in normoxic, 365+/-152 in hypoxic, (P<0.05 vs. normoxic) and 163+/-25 in hypoxic-nitric oxide synthase animals (P<0.05 vs. hypoxic, P=NS vs. normoxic). The data demonstrate that hypoxia results in increased mitochondrial proapoptotic protein Bax, increased mitochondrial caspase-9 activity, increased mitochondrial lipid peroxidation, and increased fragmentation of DNA in mitochondria of the cerebral cortex of newborn piglets. The administration of a nitric oxide synthase inhibitor, nitric oxide synthase, prior to hypoxia prevented fragmentation of mitochondrial DNA, indicating that the hypoxia-induced mitochondrial DNA fragmentation is NO-mediated. We propose that NO free radicals generated during hypoxia lead to NO-mediated altered expression of Bax leading to increased ratio of pro-apoptotic/anti-apoptotic protein resulting in modification of mitochondrial membrane, and subsequently Ca2+-influx and fragmentation of mitochondrial DNA.
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PMID:Hypoxia-induced Bax and Bcl-2 protein expression, caspase-9 activation, DNA fragmentation, and lipid peroxidation in mitochondria of the cerebral cortex of newborn piglets: the role of nitric oxide. 1677 44

Previous studies have shown that cerebral tissue hypoxia results in increased generation of oxygen-free radicals including nitric oxide (NO), expression of the proapoptotic protein Bax and fragmentation of nuclear DNA. The present study tests the hypothesis that post-hypoxic reoxygenation for 6 h following hypoxia (FiO2=0.06 for 1 h) results in continued hypoxia-induced, NO-mediated expression of the Bax protein and nuclear DNA fragmentation in the cerebral cortex of newborn piglets. Piglets were divided into normoxic (Nx), hypoxic (Hx, FiO2=0.06 for 1 h), hypoxic with 6 h reoxygenation (Hx+reox) and hypoxic with 6 h reoxygenation injected with 7-nitroindazole sodium salt (7-NINA), a selective nNOS inhibitor, immediately after hypoxia (Hx+7-NINA). Cerebral tissue hypoxia was documented by levels of ATP and phosphocreatine (PCr). Bax and Bcl-2 were analyzed by Western blot and DNA fragmentation was determined by agarose gel electrophoresis. ATP and PCr values in Hx, Hx+reox and Hx+7-NINA were significantly different from Nx (P<0.05 vs. Nx). Bax protein (ODxmm2) was 128.9+/-38.7 in Nx; 223.6+/-45.8 in Hx (P<0.05 vs. Nx); 340.5+/-73.2 in Hx+reox (P<0.05 vs. Nx, Hx and Hx+7-NINA); and 202.2+/-34.8 in Hx+7-NINA (P=NS vs. Hx). Bcl-2 protein (ODxmm2) was 14.9+/-2.7 in Nx, 12.4+/-2.1 in Hx, (P<0.05 vs. Nx), 15.7+/-3.8 in Hx+reox, (P<0.05 vs. Hx) and 13.1+/-2.2 in Hx+7-NINA (P=NS among groups). Nuclear DNA fragmentation (ODxmm2) was 147+/-15 in Nx; 797+/-84 in Hx (P<0.05 vs. Nx); 1134+/-127 in Hx+reox (P<0.05 vs. Nx, Hx and Hx+7-NINA); and 778+/-146 in Hx+7-NINA (P=NS vs. Hx, P<0.05 vs. Hx+reox). The results show that post-hypoxic reoxygenation results in increased expression of Bax protein without affecting Bcl-2 protein and increased fragmentation of nuclear DNA, which are prevented by 7-NINA. We conclude that during post-hypoxic reoxygenation the increase in Bax protein expression and fragmentation of nuclear DNA are mediated by NO derived from nNOS. We propose that in addition to NO-mediated nuclear DNA damage, the hypoxia-induced increased ratio of Bax/Bcl-2 protein will lead to caspase-activated cascade of hypoxic neuronal death during post-hypoxic reoxygenation.
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PMID:Effect of nitric oxide synthase inhibition during post-hypoxic reoxygenation on Bax and Bcl-2 protein expression and DNA fragmentation in neuronal nuclei of newborn piglets. 1678 84


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