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 studied changes in myofibrillar function and protein profiles after complete global ischemia with anoxia in rat hearts. Hearts were exposed to global ischemia and anoxia (CGI) for 30 or 60 minutes at 37 degrees C, and myofibrils were prepared for measurement of Ca(2+)-dependent Mg(2+)-ATPase activity at pH 7.0 and 6.5. Hearts incubated in cold saline (1 +/- 1 degrees C) and nonincubated hearts served as controls. Maximum ATPase activity was unchanged at pH 7.0 and pH 6.5 in myofibrils from hearts treated with 30 or 60 minutes of CGI. At pH 7.0, the Hill coefficient, which is an index of cooperative interactions among thin-filament proteins, was unchanged after 30 minutes of CGI but was significantly increased after 60 minutes of CGI. A similar trend for increased cooperativity was observed when myofibrillar ATPase activity was measured at pH 6.5 in myofibrils from rat hearts made ischemic for 30 or 60 minutes. Both 30 and 60 minutes of CGI resulted in increased pCa50 values (half-maximally activating free [Ca2+]) at pH 7.0 and pH 6.5. Densitometric analysis of myofibrillar proteins separated with sodium dodecyl sulfate-polyacrylamide gel electrophoresis indicated that troponin I and troponin T were degraded during 60 minutes of CGI. Two new protein bands appearing in ischemia-treated myofibrils were identified as partially degraded troponin I and troponin T with Western blots. The troponin I fragment could be phosphorylated by cAMP-dependent protein kinase. In addition, we observed phosphorylation of a protein band that corresponded to myosin light chain-2 in myofibrils from CGI-treated hearts. These results suggest that degradation of thin-filament proteins may contribute to the changes in cooperativity of Ca2+ regulation of ATPase activity observed in the myofibrils from rat hearts exposed to CGI.
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PMID:Alterations in myofibrillar function and protein profiles after complete global ischemia in rat hearts. 153 Nov 86

The isolated working rabbit heart preparation was used to study whether the "contractile machinery" remains unchanged in globally stunned myocardium. The function of the heart has been measured in nonischemic and postischemic conditions. The effect of isoprenaline or calcium chloride administration in both conditions was also studied. Myocardial contractile function was significantly depressed after 20-min global ischemia and returned to normal after CaCl2 and supranormal values after isoprenaline administration. From hearts used in experiments myofibrils were prepared and their ATPase activity was determined. It was observed that myofibrils prepared from "stunned" myocardium showed about 50% increase in ATPase activity in the presence of CaCl2. Subjection of the heart to ischemia caused a decrease in calcium sensitivity of the myofibrillar ATPase. Myofibrils obtained from ischemic hearts but subjected to isoprenaline or CaCl2 administration exhibited increased calcium sensitivity over that of control heart. These effects were accompanied by changes in the extent of phosphorylation of troponin I (TNI) and myosin light chains. The modification of contractile apparatus in the postischemic period described in this paper may contribute to the overall mechanism of myocardial stunning.
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PMID:Contractile proteins in globally "stunned" rabbit myocardium. 183 10

Acute myocardial ischemia maintained for 30 and 60 min with subsequent reperfusion did not induced alterations in the cyclic AMP-mediated phosphorylation capacity of phospholamban and troponin I. Inotropic stimulation of the normal heart with 0.1/uM isoprenaline for 2 min resulted in a simultaneous P-incorporation into phospholamban and troponin I to 44.4 +/- 7.5 pmoles P/mg protein and 42.4 +/- 2.9 pmoles P/mg protein, respectively, assayed by a standardized back-phosphorylation procedure. The adrenergic responsiveness, however, was markedly reduced in the time course of ischemia. After an ischemic period of 60 min the adrenergic-stimulated phosphorylation of phospholamban was diminished to 41 per cent of the control value, whereas the increase of troponin I phosphorylation was completely lost. This differential effect can be discussed in terms of the existence of cytosolic compartments for cA, possessing different lability to ischemic injury of cardiac cells. After post-ischemic reperfusion the isoprenaline responsiveness of the phosphorylation of phospholamban and troponin I was found to be normal demonstrating a reversibility at the level of two important regulator proteins, if the transient ischemia do not exceed 60 min period.
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PMID:Phosphorylation of phospholamban and troponin I in the ischemic and reperfused heart: attenuation and restoration of isoprenaline responsiveness. 252 30

The present study was designed to examine the relation between the loss of Ca2+ uptake activity and the change of protein phosphorylation in sarcoplasmic reticulum from ischemic myocardium. Ischemic (0.5, 1 and 2 h duration) and non-ischemic tissue samples were taken from the coronary-ligated porcine left ventricle and sarcoplasmic reticulum fractions were isolated. The membranes were tested for Ca2+ uptake and ATPase activities and phosphorylation of phospholamban. The in vitro 32P incorporation into phospholamban in the presence of cAMP plus the catalytic subunit of cyclic AMP dependent protein kinase became markedly reduced depending on the duration of ischemia. The activities of the Ca2+ pump (Ca2+ uptake and ATPase) were also decreased. The 32P incorporation into the myofibrillar component troponin I, which is also a specific substrate for catalytic subunit, was not affected by ischemia. The reduction of the Ca2+ pump activity correlated with the reduction of 32P incorporation into phospholamban. It is postulated that the ischemia induced inactivation of the Ca2+ pump is not only a consequence of specific loss of enzyme activity, but it is also caused by altered characteristics of phospholamban.
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PMID:Calcium transport and phospholamban in sarcoplasmic reticulum of ischemic myocardium. 252 77

NCO-700 is a newly synthesized inhibitor of both cathepsin B and calcium-activated neutral protease. We examined whether NCO-700 inhibits degradation of myofibrillar proteins induced by cardiac ischemia in dogs anesthetized with pentobarbital. Cardiac ischemia was produced by complete occlusion of the left anterior descending coronary artery (LAD) for 3 or 6 hr. Myofibrils were prepared from the ischemic myocardium, in which LAD was occluded, and from the nonischemic myocardium, in which LAD was not occluded. Electrophoresis of myofibrils prepared from the ischemic myocardium revealed that there were many degradation bands of myofibrillar proteins as well as the bands corresponding to alpha-actinin (AN), the 55 kDa protein (55 K), actin (A), tropomyosin (TM), troponin I (TN I), myosin light chain 1 (LC1) and myosin light chain 2 (LC2). In addition, the content of AN, 55 K, A, TM, TN I, LC1 and LC2 in the ischemic myofibrils was lower than that in the nonischemic myofibrils. Treatment with NCO-700 at the total dose of 20 mg/kg, which was injected intravenously before and during ischemia, inhibited both appearance of the degradation bands and the decrease in the content of A, TM, TN I, LC1 and LC2 being produced by cardiac ischemia. NCO-700, however, did not inhibit the decrease in the content of 55K and AN being induced by ischemia.
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PMID:Inhibition with NCO-700, a protease inhibitor, of degradation of cardiac myofibrillar proteins during ischemia in dogs. 406 61

Myofibrillar proteins (MPs) were extracted from isolated and perfused rat hearts subjected to different periods of ischemia to investigate the occurrence of protein degradation and/or the association of cytosolic proteins with the myofibrillar pellet. A 23-kD band was detected by SDS-PAGE of MPs after 5 minutes of ischemia, with its density gradually increasing to a plateau after 20 minutes. Longer periods of ischemia were associated with the appearance of a 39-kD band. Irrespective of the duration of ischemia, both these bands persisted during reperfusion. A partial proteolytic degradation of troponin T (TnT) and troponin I (TnI) has been claimed to be responsible for the generation of these peptides. However, the N-terminal sequence of the 39-kD band was identical to that of GAPDH, whereas Edman sequencing after pepsin digestion showed that the 23 kD is alpha B-crystallin. The binding of the two cytosolic proteins to myofibrils was confirmed by immunofluorescence analysis on cryosections of ischemic hearts. In vitro studies showed that acidosis was sufficient to induce the binding of alpha B-crystallin, whereas the inhibition of ATP depletion prevented the binding of GAPDH. Thiol oxidation is unlikely to promote GAPDH binding, since perfusion with iodoacetate under aerobic conditions or treatment of homogenates with N-ethylmaleimide or diamide failed to induce GAPDH association with the myofibrils. These changes of the myofibrillar proteins could be considered as intracellular markers of the evolution of the ischemic damage. In addition, the binding of the 23-kD peptide might be involved in alterations of contractility.
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PMID:Binding of cytosolic proteins to myofibrils in ischemic rat hearts. 862 Jun 2

The actomyosin ATPase inhibitory protein troponin I (TnI) plays a central regulatory role in skeletal and cardiac muscle contraction and relaxation through its calcium-dependent interactions with troponin C (TnC) and actin. Previously we have demonstrated the utility of F29W and F105W mutants of TnC for measurement of binding affinities of inhibitory peptide TnI(96-116) to its regulatory N and structural C domains, both in isolation and in the intact TnC molecule [Pearlstone, J. R. & Smillie, L. B. (1995) Biochemistry 34, 6932-6940]. This approach is now extended to fragment TnI(96-148). Curve-fitting analyses of fluorescence changes induced in the intact TnC mutants and the isolated N and C domains by increasing [TnI(96-148)] have permitted the assignments of K(D) values (designated K(D,N) and K(D,C)) to the interaction of TnI(96-148) with the N and C domains, respectively, of intact TnC. Taken together with the previous data for TnI(96-116) binding, it can be concluded that, within TnI(96-148), residues 96-116 are primarily responsible for binding to C domain of intact TnC and residues 117-148 to its N domain. Inspection of the available mammalian and avian skeletal muscle TnI amino acid sequences reveals a previously unrecognized conserved motif repeated 3-fold, once in the inhibitory peptide region (approximately residues 101-114; designated alpha) and twice more in the region of residues approximately 121-132 (beta) and approximately 135-146 (gamma). The number and distribution of these motifs have important structural implications for the TnI x C complex. In the beta motif of cardiac TnI, as compared with skeletal, several changes in charged amino acids are suggested as candidates responsible for the greater sensitivity of cardiac Ca2+-regulated actomyosin to acidic pH as in ischemia.
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PMID:Interactions of structural C and regulatory N domains of troponin C with repeated sequence motifs in troponin I. 920 Jul 12

The development of methods for the detection of circulating CK-MB mass, cardiac troponin T (cTn-T) and troponin I (cTn-I) has increased the diagnostic potential in the identification of myocardial damage. Coronary angioplasty (PTCA) represents a widely accepted revascularization procedure and a clinical model of induced ischemia. Using these new biochemical markers, we evaluated the incidence and the clinico-procedural correlates of minor myocardial damage (MMD) in a series of patients treated with PTCA in our Department. In 57 consecutive patients (75% males; mean age 58 years; range 35-80) undergoing elective PTCA from March 1 to June 30, 1995, serum levels of CK-MB mass, cTn-T and cTn-I were measured at baseline and at 6, 12 and 24 hours after the procedure. Seventy-eight coronary stenoses were dilated (mean 1.4 lesion/patient), 17 of these were in infarct-related vessels; 8 were total occlusions and 2 were located in saphenous vein grafts. Twenty-two procedures were completed by coronary stenting (17 elective). cTn-T and cTn-I were considered abnormal when serum levels were > 0.2 ng/ml and > 0.6 ng/ml, respectively. CK-MB mass was also determined in all patients (abnormal > 5 ng/ml). No patients had clinical or electrocardiographic evidence of myocardial infarction after the procedure. Overall, 16 patients (28%) developed biochemical evidence of post-procedural MMD (defined as the presence of at least one abnormal sample of any among the three markers tested). Four (7%) had abnormal CK-MB mass (at least one sample), 9 (16%) abnormal cTn-T, and 15 (26%) abnormal cTn-I. When CK-MB mass was elevated, both cardiac troponins were also elevated. In patients positive for MMD and abnormal CK-MB mass, peak cTn-I was significantly higher than in patients with normal CK-MB (3.02 +/- 1.07 vs 1.02 +/- 0.11 ng/ml; p = 0.009). The difference was not evident when comparing the same groups of patients for cTn-T (0.26 +/- 0.04 vs 0.18 +/- 0.10 ng/ml; p = 0.16). Also, peak cTn-I but not peak cTn-T had a positive correlation with peak CK-MB mass (r = 0.89; p < 0.0001 and r = 0.23; p = 0.40). The elevation of either marker of MMD was not related to clinical, angiographic or procedural variables. A possible interpretation for MMD was found in 2/3 of cases: bail-out (2); late occlusion (1); minor side branch occlusion (3); distal embolization from saphenous vein grafts (2) or total occlusions (2). In our series, MMD after PTCA occurs in 28% of cases and is unrelated to clinical, angiographic and procedural variables. Both cTn-T and cTn-I increase the sensitivity of CK-MB mass in the detection of MMD after PTCA, cTn-I being the most sensitive marker. In about 1/3 of cases, the presence of MMD remains unexplained. The prognostic implications of MMD are as yet undefined.
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PMID:[Troponin T, Troponin I and CK-MB (mass) in the detection of periprocedural myocardial damage after coronary angioplasty]. 924 45

We tested the hypothesis that altered phosphorylation of myofibrillar proteins is involved in post-ischemic myocardial stunning. Myofibrillar proteins were isolated from Langendorff perfused control rabbit hearts, hearts submitted to 15 min normothermic ischemia and hearts submitted to 15 min ischemia followed by 10 min of reperfusion (stunned hearts). The in vivo level of phosphorylation of specific contractile proteins by protein kinases A and C was indirectly detected by the amount of 32P incorporated in vitro in the presence of these protein kinases and saturating concentration of [gamma-32P]-ATP (back-phosphorylation method). In control experiments the back-phosphorylation technique was able to detect PKA- or PKC-induced protein phosphorylation in hearts treated with isoproterenol and phorbol ester, respectively. In stunned hearts, contractile function was significantly suppressed compared to the period before ischemia. We found no difference in myofibrillar protein profile (on densitometry of the Coomassie-stained gels after SDS-PAGE) and in PKA mediated 32P incorporation when comparing control, ischemic and stunned myocardium. Three different PKCs were used for phosphorylation: commercial purified rat brain PKC, partially purified rat brain PKC or rabbit partially purified cardiac PKC. Cardiac PKC mainly phosphorylated troponin I, whereas brain PKC phosphorylated both troponin T and troponin I. No significant difference in 32P incorporation mediated by either brain or cardiac PKC was found between control, ischemic and ischemic/reperfused myofibrils. These data indicate that myocardial stunning does not cause changes in PKC- or PKA-mediated Pi incorporation into myofibrillar proteins detectable by the back-phosphorylation method.
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PMID:Phosphorylation by protein kinases A and C of myofibrillar proteins in rabbit stunned and non-stunned myocardium. 944 26

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


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