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)

We have utilized an in situ rat coronary ligation model to establish a PKC-epsilon cytochrome oxidase subunit IV (COIV) coimmunoprecipitation in myocardium exposed to ischemic preconditioning (PC). Ischemia-reperfusion (I/R) damage and PC protection were confirmed using tetrazolium-based staining methods and serum levels of cardiac troponin I. Homogenates prepared from the regions at risk (RAR) and not at risk (RNAR) for I/R injury were fractionated into cell-soluble (S), 600 g low-speed centrifugation (L), Percoll/Optiprep density gradient-purified mitochondrial (M), and 100,000 g particulate (P) fractions. COIV immunoreactivity and cytochrome-c oxidase activity measurements estimated the percentages of cellular mitochondria in S, L, M, and P fractions to be 0, 55, 29, and 16%, respectively. We observed 18, 3, and 3% of PKC-delta, -epsilon, and -zeta isozymes in the M fraction under basal conditions. Following PC, we observed a 61% increase in PKC-epsilon levels in the RAR M fraction compared with the RNAR M fraction. In RAR mitochondria, we also observed a 2.8-fold increase in PKC-epsilon serine 729 phosphoimmunoreactivity (autophosphorylation), indicating the presence of activated PKC-epsilon in mitochondria following PC. PC administered before prolonged I/R induced a 1.9-fold increase in the coimmunoprecipitation of COIV, with anti-PKC-epsilon antisera and a twofold enhancement of cytochrome-c oxidase activity. Our results suggest that PKC-epsilon may interact with COIV as a component of the cardioprotection in PC. Induction of this interaction may provide a novel therapeutic target for protecting the heart from I/R damage.
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PMID:Protein kinase C-epsilon coimmunoprecipitates with cytochrome oxidase subunit IV and is associated with improved cytochrome-c oxidase activity and cardioprotection. 1766 Mar 87

Endogenous adenosine is an important ligand trigger for the cardioprotective effects of postconditioning (POC), yet it is unclear which adenosine receptor subtype is primarily responsible. To evaluate the role of A(2A) adenosine receptors in POC-induced protection, global ischemia-reperfusion was performed with and without POC in isolated wild-type (WT) and A(2A) adenosine receptor knockout (A(2A)KO) mouse hearts. Injury was measured in terms of postischemic functional recovery and release of cardiac troponin I (cTnI). Activation of protective signaling with POC was assessed by Akt and extracellular signal-regulated kinase (ERK) 1/2 phosphorylation. In WT hearts, POC improved recovery of postischemic developed pressure in early (81.6 +/- 6.4% of preischemic baseline vs. 37.5 +/- 5.6% for non-POC WT at 1 min) and late (62.2 +/- 4.2% of baseline vs. 45.5 +/- 5.3% for non-POC WT at 30 min) reperfusion, reduced cTnI release by 37%, and doubled the phosphorylation of both Akt and ERK1/2. These beneficial effects of POC were blocked by treatment with the selective A(2A) adenosine receptor antagonist ZM-241385 during reperfusion. Postischemic functional recovery, cTnI release, and phosphorylation of Akt and ERK1/2 were not different between non-POC WT and A(2A)KO hearts. In A(2A)KO hearts, POC did not improve functional recovery, reduce cTnI release, nor increase phosphorylation of Akt or ERK1/2. Thus the protective effects of POC are attenuated by both selective A(2A) receptor antagonism and targeted deletion of the gene encoding A(2A) adenosine receptors. These observations support the conclusion that endogenous activation of A(2A) adenosine receptors is an essential trigger leading to the protective effects of POC in isolated murine hearts.
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PMID:Targeted deletion of A2A adenosine receptors attenuates the protective effects of myocardial postconditioning. 1767 70

The presence, cause, and clinical significance of elevated cardiac troponin I in patients with acute lower limb ischemia is yet unknown. Forty-six patients (20 men [43%]; mean age 72 +/- 10 years, range 42 to 92) with acute lower limb ischemia were enrolled in this study. Serial creatine kinase (CK), CK isoenzyme MB (CK-MB), and troponin I measurements were obtained in all consecutive patients. Peak levels were evaluated for each patient. Twenty-four patients (52%) had elevated peak troponin I levels (>0.2 ng/ml) during their hospitalization. Patients were divided into 3 groups according to their peak troponin I levels: 11 patients (24%) had peak troponin I levels >1 ng/ml (the high troponin I group), 13 (28%) had levels of 0.2 to 1 ng/ml (the intermediate troponin I group), and the remaining 22 (48%) had peak troponin I levels <0.2 ng/ml (the low troponin I group). The peak CK levels were 10,263 +/- 16,513, 1,294 +/- 1,512, and 934 +/- 1,045 IU/ml (p = 0.04) in the 3 different troponin I subgroups, respectively, and the peak CK-MB levels were 143 +/- 170, 38 +/- 31, and 38 +/- 43, respectively (p = 0.04). Troponin I was positively correlated with CK (R = 0.35, p = 0.017) and CK-MB (R = 0.38, p = 0.009). The mean length of hospitalization was 8.3 +/- 6.2 days for the whole study group and did not vary among the 3 troponin I groups (10.5 +/- 10.9 vs 8.6 +/- 4.9 vs 7.2 +/- 4.0 days, p = 0.762). There were no differences in mortality during hospitalization among the 3 groups (4 of 11 vs 1 of 13 vs 4 of 22 patients, p = 0.22). In conclusion, patients with acute lower limb ischemia often have elevated cardiac troponin I levels. Elevated troponin I levels were not associated with the duration of hospitalization or with in-hospital mortality in this group of patients.
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PMID:Cardiac troponin I in patients with acute lower limb ischemia. 1769 37

The aim of the study was to evaluate whether markers of myocardial injury and ischemia are helpful in detecting coronary artery disease (CAD) in patients with stable angina. Venous blood was obtained before and after a bicycle exercise test in 47 outpatients with suspected CAD for measurement of cardiac troponin I (cTnI), heart-type fatty acid binding protein, and glycogen phosphorylase BB. Patients with a coronary artery stenosis >/=70% in diameter (n = 33) were compared with patients with coronary narrowing <50% (controls, n = 14). None of the markers increased after bicycle exercise testing. cTnI measured before and after exercise was higher in the CAD group than in controls (p <0.001). The area under the curve for diagnosis was greater when the cTnI value was detectable than with stress testing alone. In conclusion, baseline cTnI was of value in detecting CAD and also during follow-up in predicting the need for further revascularization.
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PMID:Usefulness of detectable levels of troponin, below the 99th percentile of the normal range, as a clue to the presence of underlying coronary artery disease. 1771 17

The causes of postoperative cardiovascular disturbances in neurosurgical patients include direct cardiac neurogenic effects, clinical situations where brain tissue is underperfused, and hyperdynamic states. EKG and echographic abnormalities are common in subarachnoid hemorrhage where cardiac troponin I is the most useful predictor of cardiac risk after SAH. Neurogenic pulmonary edema is short lived and often resolves with resolution of the neurologic problem. In traumatic brain injury, where areas of ischemia co-exist with luxury perfusion, advanced hemodynamic monitoring and prevention of jugular venous desaturation best avoid secondary brain injury and achieve optimal neurologic outcome. Induced hypertension improves blood flow through vessels compromised by cerebral stenting, angioplasty, microcatheters, thrombolysis, carotid clamping, intracranial bypass and cerebral vasospasm. Hyperdynamic lesions include vascular breakthrough after elimination of cerebral arteriovenous malformations, but also emergence hypertension and hyperemia. Pharmacologic agents and adjunctive measures are effective in controlling both the systemic and the cerebral circulation.
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PMID:Cardiovascular therapy of neurosurgical patients. 1828 33

HIF-1alpha is originally identified as a transcription factor that activates gene expression in response to hypoxia. In metazoans, HIF-1alpha functions as a master regulator of oxygen homeostasis and regulates adaptive responses to change in oxygen tension during embryogenesis, tissue ischemia, and tumorigenesis. Because Hif-1alpha-deficient mice exhibit a number of developmental defects, the precise role of HIF-1alpha in early cardiac morphogenesis has been uncertain. Therefore, to clarify the role of HIF-1alpha in heart development, we investigated the effect of knockdown of HIF-1alpha in Xenopus embryos using antisense morpholino oligonucleotide microinjection techniques. Knockdown of HIF-1alpha resulted in defects of cardiogenesis. Whole mount in situ hybridization for cardiac troponin I (cTnI) showed the two separated populations of cardiomyocytes, which is indicative of cardia bifida, in HIF-1alpha-depleted embryos. Furthermore, the depletion of HIF-1alpha led to the reduction in cTnI expression, suggesting the correlation between HIF-1alpha and cardiac differentiation. We further examined the expression of several heart markers, nkx2.5, gata4, tbx5, bmp4, hand1, and hand2 in HIF-1alpha-depleted embryos. Among them, the expression of nkx2.5 was significantly reduced. Luciferase reporter assay using the Nkx2.5 promoter showed that knockdown of HIF-1alpha decreased its promoter activity. The cardiac abnormality in the HIF-1alpha-depleted embryo was restored with co-injection of nkx2.5 mRNA. Collectively, these findings reveal that HIF-1alpha-regulated nkx2.5 expression is required for heart development in Xenopus.
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PMID:HIF-1alpha signaling upstream of NKX2.5 is required for cardiac development in Xenopus. 1830 27

Although astragaloside IV, a saponin isolated from Astragalus membranaceus, has been shown to protect the myocardium against ischemia/reperfusion injury, its effect on the status of sarcoplasmic reticulum (SR) Ca2+ transport in the injured myocardium remains largely unknown. In this study, we investigated whether in cultured cardiomyocytes subjected to hypoxia and reoxygenation (H/R) administration of astragaloside IV during H/R attenuates the myocardial cell injury and prevents changes in Ca2+ handling activities and gene expression of SR Ca2+ pump. Cultured cardiomyocytes from neonatal rats were exposed to 6 h of hypoxia followed by 3 h of reoxygenation. Myocyte injury was determined by the release of cardiac troponin I in supernatant. Astragaloside IV significantly inhibited cardiac troponin I release after H/R in a dose-dependent manner. The diastolic [Ca2+]i measured with Fura-2/AM was significantly increased after reoxygenation. Astragaloside IV prevented the rise of diastolic [Ca2+]i and the depression of caffeine-induced Ca2+ transients caused by H/R. Furthermore, the observed depressions in SR Ca2+-ATPase activity as well as the mRNA and protein expression of SR Ca2+-ATPase in hypoxic-reoxygenated cardiomyocytes were attenuated by astragaloside IV treatment. These results suggest that the beneficial effect of astragaloside IV in H/R-induced injury may be related to normalization of SR Ca2+ pump expression and, thus, may prevent the depression in SR Ca2+ handling.
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PMID:Astragaloside IV improved intracellular calcium handling in hypoxia-reoxygenated cardiomyocytes via the sarcoplasmic reticulum Ca-ATPase. 1834 54

The precise mechanism of cardiac troponin I (cTnI) proteolysis in myocardial stunning is not fully understood. Accordingly, we determined the effect of cTnI C terminus truncation on chemo-mechanical transduction in isolated skinned rat trabeculae. Recombinant troponin complex (cTn), containing either mouse cTnI-(1-193) or human cTnI-(1-192) was exchanged into skinned cardiac trabeculae; Western blot analysis confirmed that 60-70% of the endogenous cTn was replaced by recombinant Tn. Incorporation of truncated cTnI induced significant reductions ( approximately 50%) in maximum force and cooperative activation as well as increases ( approximately 50%) in myofilament Ca(2+) sensitivity and tension cost. Similar results were obtained with either mouse or human truncated cTn. Presence of truncated cTnI increased maximum actin-activated S1 ATPase activity as well as its Ca(2+) sensitivity in vitro. Partial exchange (50%) for truncated cTnI resulted in similar reductions in maximum force and cooperativity; tension cost was increased in proportion to truncated cTnI content. In vitro, to determine the molecular mechanism responsible for the enhanced myofilament Ca(2+) sensitivity, we measured Ca(2+) binding to cTn as reported using a fluorescent probe. Incorporation of truncated cTnI did not affect Ca(2+) binding affinity to cTn alone. However, when cTn was incorporated into thin filaments, cTnI truncation induced a significant increase in Ca(2+) binding affinity to cTn. We conclude that cTnI truncation induces depressed myofilament function. Decreased cardiac function after ischemia/reperfusion injury may directly result, in part, from proteolytic degradation of cTnI, resulting in alterations in cross-bridge cycling kinetics.
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PMID:Increased cross-bridge cycling kinetics after exchange of C-terminal truncated troponin I in skinned rat cardiac muscle. 1837 75

All volatile anesthetics have cardiac depressant effects that decrease myocardial oxygen demand and may, therefore, have a beneficial role on the myocardial oxygen balance during ischemia. Recently, experimental evidence has clearly demonstrated that in addition to these indirect protective effects, volatile anesthetic agents also have direct protective properties against ischemic myocardial damage. The implementation of these properties during clinical anesthesia can provide an additional tool in the treatment or prevention, or both, of ischemic cardiac dysfunction in the perioperative period. A recent meta-analysis showed that desflurane and sevoflurane reduce postoperative mortality and incidence of myocardial infarction following cardiac surgery with significant advantages in terms of postoperative cardiac troponin release, need for inotrope support, time on mechanical ventilation, intensive care unit and overall hospital stay. Multicenter, randomized clinical trials had previously demonstrated that the use of desflurane can reduce the postoperative release of cardiac troponin I, the need for inotropic support, and the number of patients requiring prolonged hospitalization, following coronary artery bypass graft surgery, either with and without cardiopulmonary bypass. Evidence in non-coronary surgical settings is contradictory and will be reviewed in this paper together with the mechanism of cardiac protection by volatile agents.
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PMID:Volatile anesthetics for periprocedural cardiac protection. A review. 2110 84

Previously, we demonstrated that ischemia induces mitochondrial damage and dysfunction that persist throughout reperfusion and impact negatively on postischemic functional recovery and cellular viability. We hypothesized that viable respiration-competent mitochondria, isolated from tissue unaffected by ischemia and then injected into the ischemic zone just before reperfusion, would enhance postischemic functional recovery and limit infarct size. New Zealand White rabbits (n = 52) were subjected to 30 min of equilibrium and 30 min of regional ischemia (RI) induced by snaring the left anterior descending coronary artery. At 29 min of RI, the RI zone was injected with vehicle (sham control and RI vehicle) or vehicle containing mitochondria (7.7 x 10(6) +/- 1.5 x 10(6)/ml) isolated from donor rabbit left ventricular tissue (RI-Mito). The snare was released at 30 min of RI, and the hearts were reperfused for 120 min. Our results show that left ventricular peak developed pressure and systolic shortening in RI-Mito hearts were significantly enhanced (P < 0.05 vs. RI-vehicle) to 75% and 83% of equilibrium value, respectively, at 120 min of reperfusion compared with 57% and 62%, respectively, in RI-vehicle hearts. Creatine kinase-MB, cardiac troponin I, and infarct size relative to area at risk were significantly decreased in RI-Mito compared with RI-vehicle hearts (P < 0.05). Confocal microscopy showed that injected mitochondria were present and viable after 120 min of reperfusion and were distributed from the epicardium to the subendocardium. These results demonstrate that viable respiration-competent mitochondria, isolated from tissue unaffected by ischemia and then injected into the ischemic zone just before reperfusion, significantly enhance postischemic functional recovery and cellular viability.
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PMID:Injection of isolated mitochondria during early reperfusion for cardioprotection. 1897 92


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