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)

Advanced glycation end products (AGEs) such as N(epsilon)-(carboxymethyl)lysine (CML) have been implicated in the development and progression of diabetic nephropathy. The aim of the present study is to investigate AGE levels in patients with type 2 diabetes with special regard to the role of renal impairment. Serum and urine CML levels (using a newly developed enzyme-linked immunosorbent assay), as well as serum AGE-fluorescence, were measured in 109 patients with type 2 diabetes. Patients were divided into groups with normal and impaired renal function. We found elevated serum fluorescent AGE and CML levels, as well as decreased urinary CML excretion rates, in patients with diabetes with renal impairment, but not those with normal renal function. In the presence of impaired renal function, serum CML and fluorescent AGE levels showed a significant inverse relation with creatinine clearance and a significant direct correlation with each other. No relationship could be found between serum AGE levels and parameters of blood glucose control or the presence of the following clinical complications: ischemic heart disease, diabetic retinopathy, and neuropathy. We conclude that the decline in renal function leads to increased serum AGE levels in patients with type 2 diabetes.
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PMID:N(epsilon)-(carboxymethyl)lysine levels in patients with type 2 diabetes: role of renal function. 1157 82

We recently discovered an opioid peptide analgesic, 2',6'-dimethyltyrosine (Dmt)-D-Arg-Phe-Lys-NH(2) ([Dmt(1)]DALDA), that can protect against ischemia-induced myocardial stunning. In buffer-perfused hearts, 30-min global ischemia followed by reperfusion resulted in a significant increase in norepinephrine (NE) overflow immediately upon reperfusion and significant decline in contractile force (45%). Pretreatment with [Dmt(1)]DALDA before ischemia completely abolished myocardial stunning and significantly reduced NE overflow (68%). In contrast, pretreatment with morphine before ischemia only provided brief protection against myocardial stunning and no reduction in NE overflow. [Dmt(1)]DALDA inhibited [(3)H]NE uptake into cardiac synaptosomes in vitro (IC(50) = 3.9 microM), whereas morphine had no effect. Surprisingly, protection against myocardial stunning was apparent even when hearts were perfused with [Dmt(1)]DALDA only upon reperfusion, whereas reperfusion with morphine had no effect. Binding studies with [(3)H][Dmt(1)]DALDA revealed no high-affinity specific binding in cardiac membranes, suggesting that the cardioprotective actions of [Dmt(1)]DALDA are not mediated via opioid receptors. These findings suggest that [Dmt(1)]DALDA is a potent analgesic that may be useful for myocardial stunning resulting from cardiac interventions or myocardial ischemia.
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PMID:A highly potent peptide analgesic that protects against ischemia-reperfusion-induced myocardial stunning. 1212 28

Myocardial dysfunction in the absence of myocardial ischemia is frequent in patients with diabetes mellitus but the underlying pathomechanism is unclear. We investigated whether accumulation of advanced glycation end products (AGEs) in the diabetic myocardium is related to its functional abnormalities. In 11 male homozygous Zucker diabetic fatty rats (ZDF/Gmi-fa/fa) aged 37 weeks (OBESE) and 11 non-obese, non-diabetic littermates (LEAN), we measured left ventricular function (pressure-volume catheter) and levels of N(epsilon)-(carboxymethyl) lysine (CML), a prototypical AGE, in serum and the left ventricle (competitive enzyme linked immuno-assay). Overt diabetes mellitus (HbA1c > 9%) was present in all OBESE animals but not in LEAN. Systolic left ventricular function was not different between the groups, but the markers of left ventricular relaxation, dP/dt(min) and the relaxation constant tau, were impaired in OBESE. In parallel, CML levels were increased in serum (273 +/- 15 vs. 197 +/- 10 ng/ml, p<0.05) and in the left ventricle (18.4 +/- 1.1 vs. 12.5 +/- 2.0 ng/mg protein, p < 0.05) in OBESE compared to LEAN. There was a linear correlation between tau and the left ventricular CML levels (r = 0.65; p < 0.05). We conclude that type 2 diabetes is associated with predominant left ventricular diastolic dysfunction. Myocardial accumulation of advanced glycation end products may contribute to relaxation abnormalities in type 2 diabetes.
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PMID:Impaired left ventricular relaxation in type 2 diabetic rats is related to myocardial accumulation of N(epsilon)-(carboxymethyl) lysine. 1608 56

An increased concentration of homocysteine is an important risk factor of atherosclerosis; however, the mechanism of the proatherogenic effect of this amino acid is not yet known. Studies performed during the last two decades suggest that the atherogenic effect of homocysteine may be accounted for by homocysteine thiolactone (HCTL). Homocysteine is nonspecifically activated by methionyl-tRNA synthetase; however, it is not transferred to tRNA and incorporated into proteins, but is transformed to a cyclic thioester, homocysteine thiolactone. HCTL is highly reactive and acylates free amino groups of protein lysine residues, the process referred to as protein N-homocysteinylation. Various plasma proteins are homocysteinylated in vitro and in vivo. Homocysteinylation results in the incorporation of additional thiol groups which may alter the physicochemical properties and biological activity of proteins. In particular, homocysteinylation of low-density lipoproteins (LDLs) increases their susceptibility to oxidation and accelerates their uptake by macrophages. In addition, homocysteinylated LDL elicit humoral immune response. Anti-homocysteinyllysine antibodies are detected in plasma of healthy humans and their titer is elevated in patients with ischemic heart disease or ischemic cerebral stroke. Homocysteine thiolactone is hydrolyzed to homocysteine by paraoxonase (PON), a calcium-dependent esterase synthesized in the liver and contained in plasma high-density lipoproteins (HDLs). Protein homocysteinylation may contribute to accelerated atherogenesis in individuals with hyperhomocysteinemia.
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PMID:Protein homocysteinylation: a new mechanism of atherogenesis? 1610 41

There is a considerable body of evidence supporting an association between hypertriglyceridaemia, a hypercoagulable state and atherothrombosis. A disorder of triglyceride metabolism is a key feature of the metabolic syndrome that increases risk of both ischaemic heart disease and type 2 diabetes approximately 3-fold. An increasing prevalence of obesity and metabolic syndrome is likely to contribute markedly to the prevalent ischaemic heart in the foreseeable future, and therefore it is crucial to understand mechanisms linking hypertriglyceridaemia and a hypercoagulable state. Activation of platelets and the coagulation cascade are intertwined. VLDL and remnant lipoprotein concentrations are often increased with the metabolic syndrome. These lipoproteins have the capacity to activate platelets and the coagulation pathway, and to support the assembly of the prothrombinase complex. VLDL also upregulates expression of the plasminogen activator inhibitor-1 gene and plasminogen activator inhibitor-1 antigen and activity, a process accompanied by platelet aggregation and clot formation. The surface membrane of activated platelets also supports the assembly and activity of the prothrombinase complex, resulting in further thrombin generation and amplification of the coagulation cascade. Fibrinolysis is also less efficient when thrombin is generated. Thrombin induces thrombin activatable fibrinolysis inhibitor. Thrombin activatable fibrinolysis inhibitor is a carboxypeptidase that cleaves the carboxylic lysine residues on fibrin, thereby abolishing the critical binding site for tPA-plasminogen decreasing plasmin formation. Thus the evidence is supportive of dysregulated coagulation, and impaired fibrinolysis with a predisposition to atherothrombosis, in conditions such as the metabolic syndrome, in which there are increased concentrations of VLDL and remnant lipoproteins. The purpose of this review is to describe the current evidence supporting a procoagulant state induced by VLDL and remnant lipoproteins. The role of these lipoprotein classes in (1) platelet activation; (2) the intrinsic coagulation cascade, and (3) clot formation and fibrinolysis is discussed.
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PMID:Effects of VLDL and remnant particles on platelets. 1687 77

This study aims to determine the levels of N(epsilon)-(carboxymethyl)lysine (CML) in patients with Type 2 diabetic patients with and without ischemic heart disease (IHD) and to find for a possible association between circulating CML and a number of clinical parameters including lipids, hemoglobin A1c (HbA1c) and malondialdehyde (MDA) in Type 2 diabetic IHD patients. Serum CML levels were measured by enzyme-linked immunosorbent assay using polyclonal anti-CML antibodies. Serum levels of CML and MDA were assessed in 60 IHD patients with Type 2 diabetes, 43 IHD patients without Type 2 diabetes, 64 Type 2 diabetics without IHD, and 80 sex- and age-matched healthy subjects. Correlations studies between CML levels and lipids, HbA1c, and lipid peroxidation were performed in Type 2 diabetes patients with and without IHD. A statistical significance was observed in the levels of serum glucose, lipids (triglyceride, total cholesterol, HDL-cholesterol), MDA, HbA1c, CML and LDL-cholesterol (p<0.05) between the groups of the study. CML levels were significantly increased in diabetic IHD patients compared with Type 2 diabetes patients but without IHD (537.1 +/- 86.1 vs 449.7 +/- 54.9, p<0.001). A positive correlation was observed between serum levels of CML and MDA, r = 0.338 (p = 0.008) in Type 2 diabetes patients with IHD. However, age, HbA1c and lipids had no significant influence on CML levels among diabetics (p>0.05). In conclusion, this study demonstrates the effect of both diabetes and oxidative stress on the higher levels of circulating CML. These results showed that increased serum levels of CML are associated with the development of IHD in Type 2 diabetes mellitus.
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PMID:Role of N-(carboxymethyl)lysine in the development of ischemic heart disease in type 2 diabetes mellitus. 1819 3

In acute myocardial ischemia, regional blood flow and function are proportionally reduced. With prolongation of ischemia, function further declines at unchanged blood flow. We studied the involvement of an inflammatory signal cascade in such progressive dysfunction and whether dysfunction is intrinsic to cardiomyocytes. In 10 pigs, ischemia was induced by adjusting inflow into the cannulated left anterior coronary artery to reduce coronary arterial pressure to 45 mm Hg (ISCH); 4 pigs received the inducible nitric oxide synthase (iNOS) inhibitors aminoguanidine or L-N(6)-(1-iminoethyl)-lysine during ISCH (ISCH+iNOS-Inhib); 6 pigs served as controls (SHAM). Anterior (AW) and posterior (PW) systolic wall thickening (sonomicrometry) were measured. After 6 hours, nitric oxide (NO) synthase (NOS) protein expression, NOS activity, and NO metabolites (nitrite/nitrate/nitroso species) were quantified in biopsies isolated from AW and PW. Cardiomyocyte shortening and intracellular calcium (Indo-1 acetoxymethyl ester) were measured without and with the NOS substrate L-arginine (100 micromol/L). In ISCH, AW wall thickening decreased from 42+/-4% (baseline) to 16+/-3% (6 hours). Wall thickening remained unchanged in ISCH-PW and SHAM-AW/PW. NOS2 (iNOS) protein expression and activity, but not NOS3 (endothelial NO synthase), were increased in ISCH-AW and ISCH-PW. iNOS expression correlated with increased nitrite contents. Cardiomyocyte shortening was reduced in ISCH-AW versus SHAM-AW (4.4+/-0.3% versus 5.6+/-0.3%). L-Arginine reduced cardiomyocyte shortening further in ISCH-AW (to 2.8+/-0.2%) and ISCH-PW (3.4+/-0.4% versus 5.4+/-0.4%) but not in SHAM or in ISCH+iNOS-Inhib; intracellular [Ca(2+)] remained unchanged. With L-arginine, in vitro AW cardiomyocyte shortening correlated with in vivo AW wall thickening (r=0.72). In conclusion, sustained regional ischemia induces myocardial iNOS expression in pigs, which contributes to contractile dysfunction at the cardiomyocyte level.
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PMID:Inducible nitric oxide synthase expression and cardiomyocyte dysfunction during sustained moderate ischemia in pigs. 1881 4

The traditional Chinese medicine concepts of "Xinxueyuzuzheng (heart blood stasis obstruction pattern)" and "Qiyinliangxuzheng (qi and yin deficiency pattern)" for myocardial ischemia rat models were constructed in the present study. Endogenous metabolites in rat plasma were analyzed using the GC/TOF-MS-based metabonomic method. Significant metabolic differences were observed between the control and two model groups, and the three groups were distinguished clearly by pattern recognition. Compared with those of the control, the levels of hydroxyproline, threonic acid, glutamine and citric acid were strikingly up- or down-regulated in model rats. The metabolites contributing most to the classification between the two "pattern" rats were identified, such as valine, serine, threonine, ornithine, hydroxyproline, lysine, 2-hydroxybutanoic acid, 3-hydroxybutanoic acid, galactofuranose and inositol. These compounds were indicated as the potential biomarkers. The results suggested that the two "patterns" are involved in dysfunction in oxidative stress, energy metabolism and amino acid metabolism. These findings also provided the substantial foundation for exploring the scientific connotation of these two "Zhengxing (pattern types)" of myocardial ischemia, and "Bianzheng (pattern identification)".
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PMID:Metabonomic phenotype and identification of "heart blood stasis obstruction pattern" and "qi and yin deficiency pattern" of myocardial ischemia rat models. 1993 7

Connexin43 (Cx43) is a major cardiac gap junction channel protein required for normal electrical and contractile activity. Gap junction channel assembly, function, and turnover are regulated by phosphorylation under both normal and disease conditions. The carboxyl terminus (CT) of Cx43 contains numerous amino acid residues that are phosphorylated by protein kinases. However, our knowledge of the specific residues and kinases involved is incomplete. The objective of this study was to identify amino acid residues in the Cx43-CT that are targets of the multifunctional protein kinase, Ca(2+)/calmodulin protein kinase II (CaMKII), an enzyme known to play critical roles in Ca(2+) homeostasis, transcription, apoptosis, and ischemic heart disease. We subjected fusion protein containing the Cx43-CT to phosphorylation by CaMKII in vitro, digestion with Lys-C and trypsin followed by enrichment for phosphorylated peptides using TiO(2), and analysis in an LTQ XL Orbitrap with collision-induced dissociation and electron transfer dissociation. We deduced the sites of modification by interpreting tandem spectra from these "orthogonal" methods of gas phase peptide fragmentation. We have identified 15 serine residues, including one novel site, in the Cx43-CT that are phosphorylated by CaMKII, the activity of which may be important in regulating Cx43 in normal and diseased hearts.
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PMID:Identification of CaMKII phosphorylation sites in Connexin43 by high-resolution mass spectrometry. 2115 28

As a master transcription factor in cellular responses to external stress, tumor suppressor p53 is tightly regulated. Excessive p53 activity during myocardial ischemia causes irreversible cellular injury and cardiomyocyte death. p53 activation is dependent on lysine acetylation by the lysine acetyltransferase and transcriptional coactivator CREB-binding protein (CBP) and on acetylation-directed CBP recruitment for p53 target gene expression. Here, we report a small molecule ischemin, developed with a structure-guided approach to inhibit the acetyl-lysine binding activity of the bromodomain of CBP. We show that ischemin alters post-translational modifications on p53 and histones, inhibits p53 interaction with CBP and transcriptional activity in cells, and prevents apoptosis in ischemic cardiomyocytes. Our study suggests small molecule modulation of acetylation-mediated interactions in gene transcription as a new approach to therapeutic interventions of human disorders such as myocardial ischemia.
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PMID:A small molecule binding to the coactivator CREB-binding protein blocks apoptosis in cardiomyocytes. 2151 89

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