Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0151744 (myocardial ischemia)
 31,282 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypertrophic cardiomyopathy (HCM) is characterized by myofiber hypertrophy and disarray. Intermediate filaments play an important role in maintaining of normal cell shape. Desmin filaments have been detected in adult cardiomyocytes, and vimentin and keratin filaments in cardiomyocytes during embryonic development. The pattern of arrangement of intermediate filaments in HCM has not been reported. We examined the distribution of intermediate filaments in formalin-fixed tissue sections of the disarrayed myofibers from 10 hearts with HCM using an immunohistochemical technique and antibodies to desmin, vimentin, and high and low molecular weight keratins. The controls consisted of subaortic tissue from surgically explanted hearts of patients with ischemic heart disease. In the ischemic hearts, desmin was detected in the Z bands and intercalated disks. In all HCM cases, three patterns of staining for desmin were noted: (a) individual myocytes showing a parallel arrangement along Z bands; (b) focal myofibers with decreased or complete loss of labeling of Z bands; and (c) individual myocytes with intense granular cytoplasmic staining especially in disarrayed myofibers. No staining for vimentin or keratins was noted in the cardiomyocytes from either the HCM or ischemic cases. The altered arrangement of desmin filaments in the disarrayed cardiac muscle fibers may play a role in the altered contractility that occurs in patients with HCM.
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PMID:Altered distribution of desmin filaments in hypertrophic cardiomyopathy: an immunohistochemical study. 137 88

Ischemia is known to produce damage to subcellular organelles, such as nuclei and mitochondria, in myocardial tissue. We tested the hypothesis that during myocardial ischemia various cytoskeletal and contractile proteins also undergo changes. We induced total global ischemia by incubation in buffer of tissue samples from six human left ventricles that were obtained from heart transplant recipients. Samples were removed from the incubation medium at different time intervals and investigated by immunohistochemistry using monoclonal antibodies against myosin, actin, tropomyosin, troponin T, myomesin, desmin, tubulin, and vinculin. The degree of ischemic injury was determined by electron microscopy. Ischemic cardiomyopathic human tissue showed disturbances of the localization pattern of myosin, actin, tropomyosin, and troponin T as early as 10 minutes after the onset of ischemia; this disruption was complete at 20 minutes. Tubulin also started changing at 10 minutes, but complete disruption was only evident after 120 minutes. Desmin and myomesin showed an intermediate response; changes began at 30 to 40 minutes, and disruption was complete at 90 to 120 minutes. Vinculin was most resistant to ischemia. Ultrastructurally, the tissue showed moderate reversible ischemic injury during the entire period of 180 minutes. Measuring the exposure time in seconds allowed quantitation of the intensity of the fluorescence. We reached the following conclusions: (1) Ischemia causes damage to the contractile proteins sooner than to the cytoskeleton and subcellular organelles. (2) Diseased human hearts are extremely susceptible to the effects of ischemia. These findings are important for the situation of induced cardiac arrest in heart operations and for preservation of donor hearts for transplantation.
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PMID:Ischemia induces early changes to cytoskeletal and contractile proteins in diseased human myocardium. 760 73

Previous studies on cytoskeletal changes of in vitro and in vivo animal models of ischemic myocardium have suggested the possibility of using alterations in cytoskeleton proteins as an early marker for the post-mortem diagnosis of myocardial ischemia in cases of sudden death due to coronary artery disease (CAD). In the present study, using the technique of ABC-immunohistochemistry, we examine the changes of three cytoskeletal proteins: vinculin, desmin and alpha-actinin in human myocardial samples taken from 14 cases of CAD sudden death and 13 cases of non-CAD death. Results of these examinations are compared with immunohistochemical changes of myoglobin and histochemical staining of hematoxylin and eosin and phosphotungstic acid, and Masson trichrome. Patchy and extensive loss of the three cytoskeletal proteins was demonstrated in the myocardium of victims who died 1 h or later following the onset of symptoms of ischemic myocardium. The pattern of cytoskeleton change is equivocal in the cases of CAD who died less than 1 h after the onset of symptoms and of the cases of non-CAD. In these cases, no significant histological change was observed. With less non-specific background changes and stronger positive staining, immunohistochemical staining of the three cytoskeletal proteins is more reliable than myoglobin, which has attracted the attention of many pathologists searching for anatomic evidence of ischemic myocardium in coronary artery disease.
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PMID:Cytoskeleton immunohistochemical study of early ischemic myocardium. 868 23

The aim of the investigation was to determine whether there are specific global quantitative and qualitative changes in protein expression in heart tissue from patients with dilated cardiomyopathy (DCM) compared with ischaemic heart disease and undiseased tissue. Two-dimensional (2-D) polyacrylamide gel electrophoresis and computer analysis was used to study protein alteration in DCM biopsy material (n=28) compared with donor heart biopsy samples (n=9) and explanted hearts from individuals suffering from ischaemic heart disease (IHD; n = 21). A total of 88 proteins displayed decreased abundance in DCM versus IHD material while five proteins had elevated levels in the DCM group (p<0.01). The most prominent changes occurred in the contractile protein myosin light chain 2 and in a group of proteins identified as desmin. These changes do not appear to be artefactual degradation events occurring during sample processing. These proteins are not apparent in electrophoretic separations of vascular tissue or cultured endothelial cells, mesothelial cells or cardiac fibroblasts, which are clearly distinguishable from the 2-D protein patterns of whole heart and of isolated cardiac myocytes and do not appear to reflect variations in the cellular composition of biopsy samples. The different protein patterns observed in cardiomyopathy showed no obvious relationship with New York Heart Association (NYHA) functional class or haemodynamic parameters. The study has demonstrated significant alterations in quantitative protein expression in the DCM heart which would have serious implications for myocyte function. These changes might be explained by altered protease activity in DCM which could exacerbate contractile dysfunction in the failing heart.
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PMID:Cardiac protein abnormalities in dilated cardiomyopathy detected by two-dimensional polyacrylamide gel electrophoresis. 974 65

To delineate the in vivo cardiac functions requiring normal delta protein kinase C (PKC) activity, we pursued loss-of-function through transgenic expression of a deltaPKC-specific translocation inhibitor protein fragment, deltaV1, in mouse hearts. Initial results using the mouse alpha-myosin heavy chain (alphaMHC) promoter resulted in a lethal heart failure phenotype. Viable deltaV1 mice were therefore obtained using novel attenuated mutant alphaMHC promoters lacking one or the other thyroid response element (TRE-1 and -2). In transgenic mouse hearts, deltaV1 decorated cytoskeletal elements and inhibited ischemia-induced deltaPKC translocation. At high levels, deltaV1 expression was uniformly lethal, with depressed cardiac contractile function, increased expression of fetal cardiac genes, and formation of intracardiomyocyte protein aggregates. Ultrastructural and immunoconfocal analyses of these aggregates revealed focal cytoskeletal disruptions and localized concentrations of desmin and alphaB-crystallin. In individual cardiomyocytes, cytoskeletal abnormalities correlated with impaired contractile function. Whereas desmin and alphaB-crystallin protein were increased approximately 4-fold in deltaV1 hearts, combined overexpression of these proteins at these levels was not sufficient to cause any detectable cardiac pathology. At low levels, deltaV1 expression conferred striking resistance to postischemic dysfunction, with no measurable effects on basal cardiac structure, function, or gene expression. Intermediate expression of deltaV1 conferred modest basal contractile depression with less ischemic protection, associated with abnormal cardiac gene expression, and a histological picture of infrequent cardiomyocyte cytoskeletal deformities. These results validate an approach of deltaPKC inhibition to protect against myocardial ischemia, but indicate that there is a threshold level of deltaPKC activation that is necessary to maintain normal cardiomyocyte cytoskeletal integrity.
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PMID:Ischemic protection and myofibrillar cardiomyopathy: dose-dependent effects of in vivo deltaPKC inhibition. 1238 52

Bone marrow stem cells (BMSC) from adult mice are now believed to generate non-hematopoietic cell types. This newly defined property is referred to as stem cell plasticity. We tested the potential of lineage negative c-kit positive (Lin- c-kit+), GFP+ BMSC to differentiate into cardiac myocytes in myocardial infarcts produced by ligation of the left coronary artery. At 9 days post-transplant the hearts showed a band of developing GFP+ myocytes within the damaged myocardium. These GFP+ myocytes were positive for cardiac specific myosin and early expressed transcription factors. Endothelial cells and smooth muscle cells also developed from the donor bone marrow cells. Left ventricular end diastolic pressure (LVEDP) and left ventricular developed pressure (LVDP) were improved. Lin-c- kit- cells did not regenerate myocardium. We next tested the ability of cytokine-mobilized BMSC to regenerate myocardium. Nuclei in regenerating cardiomyocytes were positive for Csx/Nkx 2.5, GATA-4 and MEF2. Cytoplasmic proteins included desmin, nestin and connexin 43. Regenerating arterioles consisted of endothelial cells and smooth muscle cells positive for Ki67, and flkl. These regenerating vessels contained circulating TER119 positive red blood cells. Repair of infarcted myocardium resulted in improved heart function and survival. At day 27 after cytokine treatment and surgery, 11 of 15 mice survived compared with 9 of 52 non-treated mice. Left ventricular ejection fraction in infarcted hearts in cytokine-treated mice was 48%, 62% and 114% higher than the ejection fraction in non-treated mice at 9, 16 and 26 days following coronary artery occlusion. These findings demonstrate that circulating autologous stem cells traffic to the ischemic, infarcted myocardium and undergo differentiation into cardiomyocytes and vascular structures. We conclude that adult BMSC have the potential for repair in acute, ischemic heart disease.
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PMID:Stem cell repair in ischemic heart disease: an experimental model. 1243 Aug 44

Although the contribution of reactive oxygen species to myocardial ischemia is well recognized, the possible intracellular targets, especially at the level of myofibrillar proteins (MP), are not yet fully characterized. To assess the maximal extent of oxidative degradation of proteins, isolated rat hearts were perfused with 1 mM H(2)O(2). Subsequently, the MP maximally oxidative damage was compared with the effects produced by 1) 30 min of no-flow ischemia (I) followed in other hearts by 3 min of reperfusion (I/R); and 2) I/R in the presence of a potent antioxidant N-(2-mercaptopropionyl)glycine (MPG). Samples from the H(2)O(2) group electrophoresed under nonreducing conditions and probed with actin, desmin, or tropomyosin monoclonal antibodies showed high-molecular mass complexes indicative of disulfide cross-bridges along with splitting and thickening of tropomyosin and actin bands, respectively. Only these latter changes could be detected in I/R samples and were prevented by MPG. Carbonyl groups generated by oxidative stress on MP were detected by Western blot analysis (oxyblot) under optimized conditions. The analyses showed one major band corresponding to oxidized actin, the density of which increased 1.2-, 2.8-, and 6.8-fold in I, I/R, and H(2)O(2) groups, respectively. The I/R-induced increase was significantly reduced by MPG. In conclusion, oxidative damage of MP occurs on reperfusion, although at a lower extent than in H(2)O(2) perfused hearts, whereas oxidative modifications could not be detected in ischemic hearts. Furthermore, the inhibition of MP oxidation by MPG might underlie the protective efficacy of antioxidants.
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PMID:Evidence of myofibrillar protein oxidation induced by postischemic reperfusion in isolated rat hearts. 1476 72

BACKGROUND: Local myogenesis, neoangiogenesis and homing of progenitor cells from the bone marrow appear to contribute to repair of the infarcted myocardium. Implantation into heart tissues of autologous skeletal myoblasts has been associated with improved contractile function in animal models and in humans with acute myocardial ischemia. Since heart infarction is most prevalent in individuals of over 40 years of age, we tested whether culture methods available in our laboratory were adequate to obtain sufficient numbers of differentiated skeletal myoblasts from muscle biopsy specimens obtained from patients aged 41 to 91. METHODS AND RESULTS: No matter of donor age, differentiated skeletal muscle cells could be produced in vitro in amounts adequate for cellular therapy (>/=300 millions). Using desmin as a cytoplasmic marker, about 50% cultured cells were differentiated along myogenic lineages and expressed proteins proper of skeletal muscle (myosin type I and II, actin, actinin, spectrin and dystrophin). Cytogenetic alterations were not detected in cultured muscle cells that had undergone at least 10 population doublings. Molecular methods employed for the screening of persistent viral infections evidenced that HCV failed to replicate in muscle cells cultured from one patient with chronic HCV infection. CONCLUSION: The proposed culture methods appear to hold promise for aged patients not only in the field of cardiovascular medicine, but also in the urologic and orthopedic fields.
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PMID:Culture of skeletal myoblasts from human donors aged over 40 years: dynamics of cell growth and expression of differentiation markers. 1589 77

Mesenchymal stem cells (MSCs) are potential sources of cells for tissue repair. However, little information is available about the time course of homing and differentiation of systemically delivered MSCs after acute myocardial ischemia (MI). In the present study, MSCs were isolated from male rat bone marrow and expanded in vitro. Female rats were divided randomly into three groups. Three hours after coronary ligation, the transplanted group received an infusion of MSCs through the tail vein; at the same time, a coronary-ligated control group was injected with culture medium, and a normal (unligated) group received MSCs. Homing of MSCs to the heart was assessed by expression of the Y chromosome sry gene using fluorescence in situ hybridization (FISH) at 3 days, 1, 4, and 8 weeks after transplantation. Immunofluorescent staining was used to examine markers for cardiomyocytes, endothelial cells, and smooth muscle cells. Hemodynamics in the hearts was also measured to assess cardiac function. At each time point, sry-positive cells were present in the cardiac tissue in transplanted group but not in the hearts of normal and control group animals. The number of sry-positive cells was significantly higher at 1 week compared to 3 days after transplantation. No significant difference was found in the number of sry-positive cells among those of 1, 4, and 8 weeks after transplantation. At 3 days and 1 week after transplantation, the sry-positive cells in the transplanted group lacked troponin, desmin, smooth muscle alpha-actin, and CD31. At the later time points, cardiomyocytes, smooth muscle cells, and endothelial cells bearing sry were identified in the transplanted group. The cardiac function in transplanted group showed higher improvement at 4 and 8 weeks compared to 1 week after transplantation. Our data suggest that intravenously delivered MSCs are capable of homing toward the ischemic myocardium, and the fastigium of homing appeared around 1 week after MI. The differentiation of MSCs to cardiomyocytes, smooth muscle cells, and endothelial cells shows to be time dependent and arises at 1 to 4 weeks after transplantation.
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PMID:Homing and differentiation of mesenchymal stem cells delivered intravenously to ischemic myocardium in vivo: a time-series study. 1691 5

Matrix metalloproteinase (MMP)-2 mediates myocardial ischemia-reperfusion injury which is characterized by enhanced peroxynitrite biosynthesis during early reperfusion. Direct infusion of peroxynitrite into isolated hearts activates MMP-2 prior to the loss in mechanical function. The mechanical dysfunction is prevented by MMPs inhibitors. MMP-2 is also found in the sarcomere of cardiomyocytes where it cleaves troponin I and myosin light chain I. Cytoskeletal proteins such as alpha-actinin, desmin and spectrin are found in close association with the sarcomere and are known to be degraded in ischemia-reperfusion injury. It remains unknown whether these proteins are degraded in peroxynitrite-induced myocardial injury and if cytoskeletal proteins are also targets for MMP-2. Peroxynitrite (80 microM) was infused into isolated rat hearts which led to a delayed onset but rapidly developing decline in mechanical function. The MMPs inhibitor PD-166793 or the peroxynitrite scavenger glutathione prevented the decline in cardiac function. At the end of perfusion, alpha-actinin levels were decreased by 45+/-3% in peroxynitrite-infused hearts as compared to control hearts; however, this was normalized to that of control hearts with either PD-166793 or glutathione. Cardiac desmin and alphaII spectrin levels were unaltered following peroxynitrite infusion. alpha-Actinin and to a lesser extent desmin are susceptible to in vitro proteolysis by MMP-2 whereas spectrin is resistant. Cardiac dysfunction induced by peroxynitrite involves degradation of alpha-actinin that may be mediated by the proteolytic action of MMP-2.
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PMID:Matrix metalloproteinase-2 degrades the cytoskeletal protein alpha-actinin in peroxynitrite mediated myocardial injury. 1785 26


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