UMLS:C0151744 - FACTA Search

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Query: UMLS:C0151744 (myocardial ischemia)
31,282 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Vascular endothelium is one of the first tissues exposed to reactive oxygen species produced during myocardial ischemia-reperfusion. Bovine coronary venular endothelial cells (CVEC) were evaluated for intracellular glutathione (GSH) levels and heat shock protein 70 (HSP 70) mRNA and protein during in vitro oxidative stress. CVEC were incubated with 0.01875 U/ml xanthine oxidase (XO) and 0.5 mM hypoxanthine (HX) for 30 min and then allowed to recover for 0, 1, 2, or 3 h. Relative GSH levels were determined by evaluation of monochlorobimane fluorescence. GSH fluorescence was significantly lower in CVEC treated with XO+HX for 30 min than in controls. GSH fluorescence was also decreased in heat-shocked CVEC. After oxidative stress, GSH levels were higher than in controls at 1 h, but by 2 or 3 h after treatment, GSH fluorescence fell below control values. HSP 70 mRNA was induced in CVEC by a 30-min treatment with XO+HX exposure. These data suggest that CVEC respond to oxidative stress by reducing intracellular GSH levels and inducing HSP 70 mRNA, although significant increases in HSP 70 protein were not detected at the time points tested.
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PMID:Oxidative injury of coronary venular endothelial cells depletes intracellular glutathione and induces HSP 70 mRNA. 773 67

After certain periods of myocardial ischemia and reperfusion, cardiac dysfunction exists in the absence of myonecrosis. In a blood-perfused isolated rat heart model, we have demonstrated early gene changes that are associated with global myocardial "stunning." Early gene changes included elevations in the expression of messenger RNAs for HSP70, c-myc and c-fos. Increased expression of messenger RNAs for protooncogenes is an important observation because of the role of protooncogenes as nuclear transcription factors. From these study findings, it would appear that the stunning state is associated with early gene changes that may signal the induction of a hypertrophic process. Subsequent studies are required to demonstrate the exact events which take place in the course of stunning that directly initiate an alteration in gene expression.
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PMID:Early gene changes in myocardial ischemia. 794 6

Regional and global myocardial ischemia and reperfusion have been demonstrated to induce expression of the stress response protein heat shock 70 (HSP70) and of immediate early genes, c-jun, c-fos, and c-myc. Because of the models that have been utilized, it has not been possible to discriminate whether this response is the consequence of ischemia, reperfusion, or abnormal hemodynamic stress superimposed on stunned myocardium. In a nonworking isolated and blood-perfused rat heart model, we evaluated the mRNAs for c-fos, c-myc, and hsp70. The heart was subjected to varying periods of ischemia and reperfusion. Significant increases in hsp70 and c-fos were observed, which increased with longer periods of ischemia. No significant increase in c-myc was measured. In addition, mRNA encoding the Ca2+/glucose responsive stress protein GRP78 was evaluated. No increase in this early response gene was noted despite the use of a model associated with cellular calcium loading. Based on these observations, we suggest that the induction of hsp70 and c-fos is the consequence of ischemia and reperfusion and not dependent upon an early hypertrophy response such as would be observed in afterload mismatching or on calcium loading. Further investigations are necessary to isolate the effects of ischemia from those of reperfusion.
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PMID:Myocardial stunning: association with altered gene expression. 806 49

Myocardial ischemia markedly increases the expression of several members of the stress/heat shock protein (HSP) family, especially the inducible HSP70 isoforms. Increased expression of HSP70 has been shown to exert a protective effect against a lethal heat shock. We have examined the possibility of using this resistance to a lethal heat shock as a protective effect against an ischemic-like stress in vitro using a rat embryonic heart-derived cell line H9c2 (2-1). Myogenic cells in which the heat shock proteins have been induced by a previous heat shock are found to become resistant to a subsequent simulated ischemic stress. In addition, to address the question of how much does the presence of the HSP70 contribute to this protective effect, we have generated stably transfected cell lines overexpressing the human-inducible HSP70. Embryonal rat heart-derived H9c2(2-1) cells were used for this purpose. This stably transfected cell line was found to be significantly more resistant to an ischemic-like stress than control myogenic cells only expressing the selectable marker (neomycin) or the parental cell line H9c2(2-1). This finding implicates the inducible HSP70 protein as playing a major role in protecting cardiac cells against ischemic injury.
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PMID:Expression of inducible stress protein 70 in rat heart myogenic cells confers protection against simulated ischemia-induced injury. 811 9

In this overview four questions were discussed related to heat shock proteins and myocardial ischemia. Heat shock proteins are chaperones which associate with malfolded proteins and prevent their aggregation into large damaging complexes. In myocardial ischemia, the inducible heat shock protein 70 (hsp70), the mitochondrial heat shock protein 60 and the small 27 heat shock protein increases after 30 minutes of ischemia of the rat heart and subsequent reperfusion. In addition, we describe direct evidence for the protective effect of heat shock proteins against simulated ischemia in H9c2 cells. H9c2 cells are an embryonal rat heart derived permanent cell line which maintains some features of cardiac myocytes. Making stable lines overexpressing the inducible hsp70 we could show that simulated ischemia leads to less injury in H9c2 cells overexpressing the hsp70 transgene. In addition, transgenic mice were constructed in which the rat inducible hsp70 is induced in cardiac myocytes. Submitting such hearts in a Langendorf isolated heart perfusion set-up to 20 minutes of global ischemia and following the contractile recovery of the heart, we found that in transgenic mouse hearts contractile recovery was significantly enhanced. Furthermore in hearts from transgenic mice overexpressing the inducible hsp70, less CK release occurs and infarct size was decreased. In summary, increased expression of the inducible hsp70 exerts a protective effect against the injury induced by myocardial ischemia.
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PMID:Heat shock proteins in myocardial stress. 858 78

We have recently shown that the overexpression of a heat shock protein 70 (hsp 70) in a rat myogenic cell line confers protection against simulated ischemia. We also developed and demonstrated that overexpression of this protein, in the hearts of transgenic mice, protects against ischemia/reperfusion injury. We have now inserted the hsp70 gene in an adenoviral vector and show that we are able to transfer and achieve overexpression of this protein in neonatal cardiomyocytes and in the rat myogenic cell line H9c2. We find that cells infected with the adenoviral-hsp70i construct are rendered tolerant to simulated ischemia as compared to cells infected with a control recombinant adenoviral construct. In conclusion, our results demonstrate the feasibility of using adenoviral vectors to overexpress the hsp70 in myogenic cells, specially in cardiomyocytes, and the efficiency of this approach for providing protection against myocardial ischemia.
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PMID:Adenovirus-mediated gene transfer of a heat shock protein 70 (hsp 70i) protects against simulated ischemia. 900 52

Brief ischemic periods lead to myocardial dysfunction without myocardial infarction. It has been shown that expression of inducible HSP70 in hearts of transgenic mice leads to decreased infarct size, but it remains unclear if HSP70 can also protect against myocardial dysfunction after brief ischemia. To investigate this question, we developed a mouse model in which regional myocardial function can be measured before and after a temporary ischemic event in vivo. In addition, myocardial function was determined after brief episodes of global ischemia in an isolated Langendorff heart. HSP70-positive mice and transgene negative littermates underwent 8 min of regional myocardial ischemia created by occlusion of the left descending coronary artery, followed by 60 min of reperfusion. This procedure did not result in a myocardial infarction. Regional epicardial strain was used as a sensitive indicator for changes in myocardial function after cardiac ischemia. Maximum principal strain was significantly greater in HSP70-positive mice with 88+/-6% of preischemic values vs. 58+/-6% in transgene-negative mice (P < 0.05). Similarly, in isolated Langendorff perfused hearts of HSP70-positive and transgene-negative littermates exposed to 10 min of global ischemia and 90 min of reperfusion, HSP70 transgenic hearts showed a better-preserved ventricular peak systolic pressure. Thus, we conclude that expression of HSP70 protects against postischemic myocardial dysfunction as shown by better preserved myocardial function.
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PMID:Protection against myocardial dysfunction after a brief ischemic period in transgenic mice expressing inducible heat shock protein 70. 946 81

Myocardial ischemia and reperfusion injury (MI/R) represents important sequelae of clinical events. Historically, a number of approaches including, surgical intervention, pharmacological therapy and physical exercise regimes have been prescribed for the treatment of patients with cardiovascular disease. Recently, however, attention has focused upon more novel approaches using gene-based therapies to treat cardiovascular and MI/R. This mini-review will examine the role that heat shock proteins (HSP), in particular the HSP70 family, and the antiapoptotic protein Bcl-2 play in myocardial protection. Also examined in this review are several techniques including adenovirus and Japan-Liposomal method for delivering genes into the myocardium.
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PMID:Gene therapy: a novel method for the treatment of myocardial ischemia and reperfusion injury--mini-review. 1139 69

The role of nitric oxide (NO) generated by the inducible NO synthase (iNOS) during myocardial ischemia and reperfusion is not understood. We investigated the role of iNOS during early reperfusion damage induced in genetically deficient iNOS (iNOS-/-) mice and wild-type littermates. In wild-type mice, ischemia (60 min) and reperfusion (60 min) induced an elevation in serum levels of creatine phosphokinase and myocardial injury characterized by the presence of scattered apoptotic myocytes and mild neutrophil infiltration. Northern blot analysis showed increased expression of iNOS, whose activity was markedly elevated after reperfusion. Immunohistochemistry showed staining for nitrotyrosine; Western blot analysis showed elevated expression of heat shock protein 70 (HSP70), a putative cardioprotective mediator. Plasma levels of nitrite and nitrate, tumor necrosis factor alpha (TNF-alpha), interleukin 6 (IL-6), and IL-10 were also increased. These events were preceded by degradation of inhibitor kappaBalpha (IkappaBalpha), activation of IkappaB kinase complex (IKK) and c-Jun-NH2-terminal kinase (JNK), and subsequently activation of nuclear factor-kappaB (NF-kappaB) and activator protein 1 (AP-1) as early as 15 min after reperfusion. In contrast, iNOS-/- mice experienced 35% mortality after reperfusion. The extensive myocardial injury was associated with marked apoptosis and infiltration of neutrophils whereas expression of HSP70 was less pronounced. Nitrotyrosine formation and plasma levels of nitrite and nitrate were undetectable. TNF-alpha and IL-6 were increased and IL-10 was reduced in earlier stages of reperfusion. Activation of IKK and JNK and binding activity of NF-kappaB and AP-1 were significantly reduced. Thus, we conclude that iNOS plays a beneficial role in modulating the early defensive inflammatory response against reperfusion injury through regulation of signal transduction.
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PMID:Absence of inducible nitric oxide synthase modulates early reperfusion-induced NF-kappaB and AP-1 activation and enhances myocardial damage. 1187 82

Heat shock or stress proteins (HSPs) have been shown to be able to confer cytoprotection in a diversity of cell types and organisms. We were interested in assessing if HSPs, in particular HSP70, were protective against pathophysiological stresses such as myocardial ischemia. Our approach was to generate a transgenic mouse line that would constitutively express high levels of an inducible rat HSP70 isoform in the heart. The hearts of the transgenic mice were then used in an isolated perfused mouse heart model to assess whether increased expression of HSP70 alone was protective against ischemia-reperfusion injury. Our study showed that there was a significant improvement in contractile recovery, less cellular damage, and a reduction in infarct size in the hearts of transgenic mice as compared to non-transgenic mice following global ischemia in our isolated perfused mouse heart model. Additional studies have since shown that increased expression of HSP70 as well as other stress proteins in transgenic mice protects against different forms of pathological stresses. We present here the methods we used to generate HSP70 transgenic mice and assess their increased tolerance to ischemia-reperfusion injury.
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PMID:The use of transgenic mice to study cytoprotection by the stress proteins. 1564 43

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