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

The contraction of smooth muscle is influenced by the substrate MgATP and the product MgADP. The effects on force, shortening velocity and ATP-turnover, are consistent with an influence on the kinetics of cross-bridge cycling. Part of these effects are mediated via an influence on the regulation of contraction by myosin light chain phosphorylation. Results from preparations activated by thiophosphorylation, show that MgATP and MgADP also interact directly at the cross-bridge level, and are consistent with MgADP acting as a competitive ATP-analogue. The slow shortening velocity and decreased rate of ATP-induced relaxation from rigor in the presence of MgADP, suggest an inhibition of cross-bridge detachment. The rate of ATP-turnover was decreased in the presence of the nonhydrolyzable ATP-analogue AMPPNP. These results may contribute to the characterization of the biochemical reactions in the structurally organized smooth muscle contractile system. In addition, the influence of MgATP and MgADP on smooth muscle contraction suggest that the concentrations of substrate and products, at the level of the contractile proteins, may constitute important regulatory factors in vivo under conditions, such as hypoxia and ischemia, associated with impaired cellular energy supply.
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PMID:Influence of ATP, ADP and AMPPNP on the energetics of contraction in skinned smooth muscle. 368 21

The effects of global ischemia on the contractile system and on sarcoplasmic reticulum (SR) function were studied by measuring the isometric tension and the SR Ca2+ release activity of chemically skinned cardiac fiber preparations from seven patients undergoing open-heart surgery. Ten minutes of ischemia caused 1) a decrease in the myofilament sensitivity to Ca2+ (expected Ca2+ concentration giving half-maximal tension; from 0.69 +/- 0.04 to 1.38 +/- 0.06 microM, n = 7) and in the cooperativity index (Hill coefficient; from 2.61 +/- 0.45 to 0.92 +/- 0.15, n = 7), 2) a decrease in myosin light chain phosphorylation, and 3) a 300% increase in the threshold caffeine concentration for SR Ca2+ efflux channel activation, with a 30% reduction in the rate of Ca2+ release by caffeine at threshold concentrations and a 23% reduction in the rate of release by 20 mM caffeine. After preincubation with 5 microM trifluoperazine, a calmodulin antagonist, the caffeine threshold of ischemic and control cardiac muscle became comparable. Most changes were reversed by reperfusion, while the caffeine threshold was still two times greater than control. These results indicate that ischemia caused alterations of the cardiac muscle contractile apparatus and the SR that were reversed only after reperfusion.
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PMID:Effects of ischemia on sarcoplasmic reticulum and contractile myofilament activity in human myocardium. 823 22

Serum levels of cardiac myosin light chain 1 after heart transplantation were studied in 24 infants and children who underwent heart transplantation between June 1990 and April 1991. The ages of the patients ranged from 4 days to 6 years 7 months (mean, 9.9 months), and their body weights ranged from 2.2 to 20 kg (mean, 5.6 kg). The ages of the donors ranged from 2 days to 8 years, 7 months (mean, 26.6 months), and their body weights ranged from 2.5 to 26 kg (mean, 11.4 kg). The donor heart ischemic time ranged from 90 minutes to 482 minutes (mean, 279 minutes). Peak myosin levels after heart transplantation showed significant correlation with the duration of graft ischemia (p < 0.01) and with diastolic cardiac function in the first posttransplant week (p < 0.05). Peak myosin levels did not correlate with systolic cardiac function, age of the donor, or age of the recipient. Myosin levels of the 15 patients with graft ischemic times exceeding 4 hours averaged 6.30 +/- 3.50 ng/ml. These levels were significantly higher than those of patients with graft ischemia lasting less than 4 hours (2.60 +/- 1.20 ng/ml; p < 0.01). Both of the values are higher than previously reported values of normal controls but lower than previously reported values of patients with myocardial infarction. Preservation techniques used for this series of transplant operations provided good clinical protection of the donor heart for up to 8 hours, although release of the cardiac myosin light chain fragment correlated with duration of graft ischemia. Cardiac myosin levels appeared to be a good indicator of heart graft damage during ischemic preservation. It remains to be determined at what level of myosin release (and, hence, at what duration of graft ischemia) irreversible myocardial damage, which might result in permanent functional compromise, occurs.
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PMID:Myosin light chain efflux after heart transplantation in infants and children and its correlation with ischemic preservation time. 836 Nov 87

Myocardial stunning is characterized by decreased myofilament Ca2+ responsiveness. To investigate the molecular basis of stunned myocardium, we performed PAGE and Western immunoblot analysis of the contractile proteins. Isolated rat hearts were retrogradely perfused at 37 degrees C for either 50 minutes (control group) or for 10 minutes, followed by 20-minute global ischemia and 20-minute reperfusion (stunned group), or for 20-minute ischemia without reflow. Another group consisted of hearts subjected to 20-minute ischemia in which stunning was mitigated by 10-minute reperfusion with low Ca2+/low pH solution. Myocardial tissue samples subjected to PAGE revealed no obvious differences among groups. Western immunoblots for actin, tropomyosin, troponin C, troponin T, myosin light chain-1, and myosin light chain-2 showed highly selective recognition of the appropriate full-length molecular weight bands in all groups. Troponin I (TnI) Western blots revealed an additional band (approximately 26 kD, compared with 32 kD for the full-length protein) in stunned myocardial samples only. In parallel experiments, skinned trabeculae were treated with calpain I for 20 minutes; Western blots showed a TnI degradation pattern similar to that observed in stunned myocardium. Such TnI degradation was prevented by calpastatin, a naturally occurring calpain inhibitor. The results show that (1) TnI is partially and selectively degraded in stunned myocardium; (2) this degradation could be prevented by low Ca2+/low pH reperfusion, which also prevented the contractile dysfunction of stunning; and (3) calpain I could similarly degrade TnI, supporting the idea that Ca(2+)-dependent myofilament proteolysis underlies myocardial stunning.
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PMID:Role of troponin I proteolysis in the pathogenesis of stunned myocardium. 904 60

Myosin from cardiac muscle consists of two heavy chains and two pairs of light chain. Regulatory myosin light chain (RMLC) is phosphorylated by a Ca2+ and calmodulin dependent myosin light chain kinase. The impact of experimental myocardial infarction on cardiac RMLC was studied. The left anterior descending coronary artery of rabbits was ligated. Three, 7 and 14 days later the animals were euthanized, sections of the heart were frozen in liquid nitrogen and later subjected to 2-dimensional electrophoresis. Isoelectric focusing was carried out at a pH range of 4.5-5.4. Reproducible patterns of protein separation showed four spots with proteins of phosphorylatable regulatory light chains shifted to a more negative pH as compared to essential light chain. We investigated changes in phosphorylation of RMLC in infarcted heart muscle. As compared to sham operated animals, a decline in phosphorylation of RMLC was present in both infarcted and non-infarcted portions of the left ventricle; the latter was significant 7 days following the onset of ischemia. In contrast, the decline in percent phosphorylation in the infarcted area was not significant. The amount of RMLC decreased significantly in the infarcted portion. A highly significant reduction in the percent of viable cardiomyocytes accompanied the decline in phosphorylation. There was a significant correlation of RMLC following administration of isoproterenol, 7 and 14 days following onset of ischemia. Only faint traces of essential atrial myosin light chain (ALC-1) were present in the non-infarcted portion of the left ventricle. No correlation was found between percent phosphorylation and the amount of RMLC (density) following infusion of saline or isoproterenol. Isoproterenol significantly increased percent phosphorylation without altering the amount of RMLC protein. We conclude that myocardial infarction profoundly affects regulatory myosin light chain phosphorylation in the infarcted and non-infarcted areas of the myocardium and that RMLC plays a significant part in myocardial contractility.
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PMID:Myocardial infarction and regulatory myosin light chain. 934 59

Our objective in experiments reported here was to identify myofilament proteins of rat hearts either lost or degraded by cardiac ischemia (15- or 60-minute duration) with and without 45 minutes of reperfusion. We correlated these changes with alterations in myofilament sensitivity to Ca2+ and maximum force generation. Protein degradation and loss were assessed by high-performance liquid chromatography, SDS-PAGE, Western blotting analysis, and amino acid sequencing. Compared with nonischemic control hearts, bundles of skinned fibers from hearts subjected to ischemia alone demonstrated a decrease in maximum force generation and an increase in sensitivity to Ca2+. These changes in function were increased with the duration of the ischemia and with reperfusion. With increasing duration of ischemia, there was an increased loss and degradation of myofibrillar alpha-actinin and troponin I (TnI) at its C-terminus. Alpha-actinin and TnI were most susceptible to ischemia, but with 60 minutes of ischemia/reperfusion, there was also degradation of myosin light chain-1 (MLC1) involving a clip of residues 1 to 19. The MLC1 degradation product was detected in the reperfusion effluent (along with troponin T, tropomyosin, and alpha-actinin) but not in the tissue with 60 minutes of ischemia with no reperfusion. Moreover, with ischemia the following proteins became associated with the myofibrils: GAPDH and proteins of the mitochondrial ATP synthase complex. Our results provide new evidence regarding the mechanism by which ischemia/reperfusion causes myocardial injury and support the hypothesis that an important element in the injury is altered activity and structure of the myofilaments.
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PMID:Breakdown and release of myofilament proteins during ischemia and ischemia/reperfusion in rat hearts: identification of degradation products and effects on the pCa-force relation. 946 97

To establish serum myosin light chain I (MLCI) as a severity and prognostic marker for patients with acute myocardial infarction (AMI), we measured the serum levels of MLCI in 71 patients with first AMI daily for 1 week after the onset and classified them into four groups by the peak LCI: group 1, > or =2.5 ng/ml but <10 ng/ml; group 2, > or =10 ng/ml but <25 ng/ml; group 3, > or =25 ng/ml but <50 ng/ml; and group 4, > or =50 ng/ml (MLCI grade). The patients in group 1 were likely to show non-Q-wave infarction. The patients in groups 1 and 2 were likely to show redistribution on exercise thallium-201 scintigraphy, suggesting frequent residual ischemia in these groups. The patients in group 4 were likely to show higher Forrester's subset and lower cardiac index at admission and lower left ventricular ejection fraction at discharge. Recurrent angina was equally found in all groups. Severe complications or death were found in patients in groups 3 and 4. Thus the MLCI grade can be used as a simple marker for evaluating the severity of patients with AMI.
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PMID:Myosin light chain I grade: a simple marker for the severity and prognosis of patients with acute myocardial infarction. 948 84

The importance of endothelial contraction in the genesis of inflammatory edema has been reported. ROS are metabolites synthesized in pathological conditions in that a significant intravascular fluid leak occurs, such as ischemia-reperfusion. Present experiments were designed to test the hypothesis that ROS, particularly H2O2, may elicit the contraction of endothelial cells, and to explore the mechanisms involved. Bovine aortic endothelial cells incubated with H2O2 showed a significant reduction in planar cell surface area (PCSA), and a significant increase in myosin light chain phosphorylation (MLCP), with a time- and dose-dependent pattern, without any significant toxicity. This effect of H2O2 was not blocked by sulotroban (TxA2 antagonist) or BN 52021 (PAF antagonist). Lanthanum chloride (calcium channel blocker) and EGTA partially inhibited the increase in MLCP induced by H2O2. H7 and staurosporine, PKC inhibitors, and PKC down-regulation (phorbol myristate acetate treatment, 24 h) also blocked H2O2-dependent endothelial contraction, measured as PCSA or MLCP. H2O2 increased the intracellular calcium concentration, an effect blunted by EGTA and lanthanum chloride. H2O2 also increased the phosphorylation of an 80 kD polypeptide, probably MARCKS, a PKC substrate. In summary, the present results demonstrate the ROS-dependent contraction of endothelial cells, an effect that could explain the intravascular fluid leak observed in some pathophysiological situations. Calcium and PKC may be involved in the development of this contraction.
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PMID:Mechanisms involved in the contraction of endothelial cells by hydrogen peroxide. 1021 38

The importance of endothelial cell contraction in the regulation of vascular biology is being increasingly recognized. Our group has demonstrated that reactive oxygen species, particularly hydrogen peroxide, which are released in pathological conditions such as ischemia-reperfusion, are able to induce contraction in bovine aortic endothelial cells (BAEC). The cGMP-dependent relaxation of contractile cells depends on the ability of the cyclic nucleotide to interfere with intracellular calcium; however, this is not the only mechanism involved. The present experiments were designed to analyse the mechanism by which cGMP induces relaxation in BAEC. Sodium nitroprusside (SNP), an activator of soluble guanylate cyclase, as well as atrial natriuretic (ANP) and C-type natriuretic (CNP) peptides, activators of particulate guanylate cyclase, blunted the hydrogen peroxide-induced contraction of BAEC and myosin light chain phosphorylation. The inhibitory effect was more marked with SNP and CNP than with ANP, and the action of SNP and CNP were partially reversed by blocking soluble and particulate guanylate cyclases, respectively. Dibutyryl cGMP (db-cGMP), a cGMP analogue, mimicked the effect of SNP and CNP. Cyclic GMP-dependent protein kinase (cGK) protein levels and activity were measured. Hydrogen peroxide induced a significant reduction in cGK activity without any change in protein level. This effect was completely reversed by preincubation with db-cGMP. Calyculin A, a myosin light chain phosphatase inhibitor, prevented the cGMP-induced relaxation of BAEC. SNP, CNP and db-cGMP also partially prevented the hydrogen peroxide-induced increase in intracellular calcium levels. Catalase completely blocked this effect. In summary, the present results support a role for those metabolites which activate guanylate cyclases in the relaxation of BAEC, and suggest that the cGMP-induced BAEC relaxation could be due, at least partially, to the stimulation of cGK and/or myosin light chain phosphatase activity, and to calcium blockade.
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PMID:Mechanisms involved in the relaxation of bovine aortic endothelial cells. 1183 19

Although human heme oxygenase-1 (hHO-1) could provide a useful approach for cellular protection in the ischemic heart, constitutive overexpression of hHO-1 may lead to unwanted side effects. To avoid this, we designed a hypoxia-regulated hHO-1 gene therapy system that can be switched on and off. This vigilant plasmid system is composed of myosin light chain-2v promoter and a gene switch that is based on an oxygen-dependent degradation domain from the hypoxia inducible factor-1-alpha. The vector can sense ischemia and switch on the hHO-1 gene system, specifically in the heart. In an in vivo experiment, the vigilant hHO-1 plasmid or saline was injected intramyocardially into myocardial infarction mice or sham operation mice. After gene transfer, expression of hHO-1 was only detected in the ischemic heart treated with vigilant hHO-1 plasmids. Masson trichrome staining showed significantly fewer fibrotic areas in vigilant hHO-1 plasmids-treated mice compared with saline control (43.0%+/-4.8% versus 62.5%+/-3.3%, P<0.01). The reduction of interstitial fibrosis is accompanied by an increase in myocardial hHO-1 expression in peri-infarct border areas, concomitant with higher Bcl-2 levels and lower Bax, Bak, and caspase 3 levels in the ischemic myocardium compared with saline control. By use of a cardiac catheter, heart from vigilant hHO-1 plasmids-treated mice showed improved recovery of contractile and diastolic performance after myocardial infarction compared with saline control. This study documents the beneficial regulation and therapeutic potential of vigilant plasmid-mediated hHO-1 gene transfer. This novel gene transfer strategy can provide cardiac-specific protection from future repeated bouts of ischemic injury.
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PMID:Protection from ischemic heart injury by a vigilant heme oxygenase-1 plasmid system. 1496 35


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