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:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We investigated the effect of the ascorbic acid on the nicotinamide adenine dinucleotide phosphate-diaphorase (NADPH-d)-stained and myosin-V myenteric neurons in the ileum of chronically diabetic rats. The study was performed 4 months after inducing experimental diabetes with streptozotocin. Diabetic rats showed increased (p<0.05) glycaemia and glycated haemoglobin. Three groups were compared, i.e., nondiabetic rats, diabetic rats and diabetic rats treated with ascorbic acid. Myosin-V immunohistochemistry and NADPH-d histochemistry were employed. We investigated the areas of 500 cell bodies of myosin-V neurons and of 500 NADPH-d-stained neurons from all groups. The quantitative analysis was performed by using an area of 8.96 mm(2) from each ileum. The two groups of diabetic rats and diabetic rats treated with ascorbic acid showed reduction in the number and an increased area of the myosin-V-immunostained myenteric neurons. In addition, we observed increased relative proportion of NADPH-d-stained neurons in diabetic rats and diabetic rats treated with ascorbic acid. However, the area of these neurons in the diabetic rats group was larger than those evidenced in the nondiabetic rats and diabetic rats treated with ascorbic acid.
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PMID:Evaluation of the population of NADPH-diaphorase-stained and myosin-V myenteric neurons in the ileum of chronically streptozotocin-diabetic rats treated with ascorbic acid. 1255 1

The structure of fibrin network and the properties of the fibrinolytic enzymes (the formation, the efficiency of their activity and the rate of their inactivation) essentially determine the effectiveness of fibrinolysis. The fibrin structure and the action of proteases, however, depend considerably on additional physiological and pathological conditions. These are: cell membrane and components of endothelial cell, elastase of polymorphonuclear cells, actin and myosin in thrombus released by platelets and smooth muscle cells, certain denatured proteins, various immunoglobulins, some metabolites accumulated in diabetes mellitus, the inhibitor system of fibrinolytic enzymes (where and when proteases are available for inhibitors). In this survey, the biochemical basis makes understandable for the medical practitioner why urgent fibrinolytic therapy is required and why it would be ideal to initiate the formation of fibrinolytic enzymes at the site of thrombus.
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PMID:[Fibrinolysis modulators]. 1258 22

Nonenzymatic glycosylation (glycation) has been recognized as an important posttranslational modification underlying alterations of structure and function of extracellular proteins during aging and diabetes. Intracellular proteins may also be affected by this modification, and glycation has been suggested to contribute to aging-related impairment in skeletal muscle function. Glycation is the chemical reaction of reducing sugars with primary amino groups resulting in the formation of irreversible advanced glycation end products. Glutathione is an abundant tripeptide in skeletal muscle. To understand the effect of glutathione on glycated myosin function, we used a single-fiber in vitro motility assay in which myosin is extracted from a single muscle fiber segment to propel fluorescent-labeled actin filaments. Myosin function responded to glucose exposure in a dose-dependent manner, i.e., motility speeds were reduced by 10, 34, and 90% of preincubation values after 30-min exposure to 1, 3, and 6 mM glucose, respectively. The 30-min 6 mM glucose incubation was followed by a 20-min 10 mM glutathione incubation. Glutathione treatment restored motility (0.98 +/- 0.06 microm/s, n = 3; P < 0.001) after glucose exposure (0.10 +/- 0.07 microm/s, n = 3), close to preincubation levels (1.12 +/- 0.06 microm/s, n = 3). It is concluded that glucose modifies myosin function in a dose-dependent manner and that glutathione reverses the effect of glucose on myosin function.
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PMID:Glutathione reverses early effects of glycation on myosin function. 1272 40

A novel mechanism of regulation of cardiac alpha and beta myosin heavy chain gene by naturally occurring antisense transcription was elucidated via pre-mRNA analysis. Herein, we report the expression of an antisense beta myosin heavy chain RNA in the normal rodent myocardium. The pattern of expression of the antisense betaMHC RNA (beta RNA) under altered thyroid state and in diabetes directly correlates with that of the alpha pre-mRNA/mRNA, whereas it negatively correlates with the beta mRNA expression. Rapid amplification of the 5' end shows that this antisense transcript originates 2 kb downstream of the beta gene, and it is transcribed across the entire beta gene from the opposite strand. Our results demonstrate that the beta-alpha myosin heavy chain intergenic DNA possesses a bidirectional transcriptional activity, one direction transcribing the alpha gene, and the opposite direction transcribing the antisense beta RNA. This process turns on the alpha expression, and it simultaneously turns off that of the beta and thus coordinates alpha and beta expression in an opposite fashion. Comparative analyses of the intergenic DNA sequence across five mammalian species revealed a conserved region that is proposed to be a common regulatory region for the alpha and antisense beta promoter. This finding unravels the mechanism of cardiac alpha-beta gene switching and implicates the role of cardiac myosin gene organization with their function.
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PMID:Role of antisense RNA in coordinating cardiac myosin heavy chain gene switching. 1285 93

With trauma, sepsis, cancer, or uremia, animals or patients experience accelerated degradation of muscle protein in the ATP-ubiquitin-proteasome (Ub-P'some) system. The initial step in myofibrillar proteolysis is unknown because this proteolytic system does not break down actomyosin complexes or myofibrils, even though it degrades monomeric actin or myosin. Since cytokines or insulin resistance are common in catabolic states and will activate caspases, we examined whether caspase-3 would break down actomyosin. We found that recombinant caspase-3 cleaves actomyosin, producing a characteristic, approximately 14-kDa actin fragment and other proteins that are degraded by the Ub-P'some. In fact, limited actomyosin cleavage by caspase-3 yields a 125% increase in protein degradation by the Ub-P'some system. Serum deprivation of L6 muscle cells stimulates actin cleavage and proteolysis; insulin blocks these responses by a mechanism requiring PI3K. Cleaved actin fragments are present in muscles of rats with muscle atrophy from diabetes or chronic uremia. Accumulation of actin fragments and the rate of proteolysis in muscle stimulated by diabetes are suppressed by a caspase-3 inhibitor. Thus, in catabolic conditions, an initial step resulting in loss of muscle protein is activation of caspase-3, yielding proteins that are degraded by the Ub-P'some system. Therapeutic strategies could be designed to prevent these events.
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PMID:Activation of caspase-3 is an initial step triggering accelerated muscle proteolysis in catabolic conditions. 1470 15

Cardiac disease in diabetes presents as impaired left ventricular contraction and relaxation; however, the mechanisms underlying contractile protein dysfunction during the progression of disease are unknown. Accordingly, we assessed Ca(2+)-dependent tension development and tension-dependent ATP consumption (tension cost) in a rat model early (6 wk) and late (12 wk) after the onset of diabetes (50 mg/kg iv streptozotocin) using mechanical force- and enzyme-coupled UV absorbance measurements. Myofilament Ca(2+) sensitivity and maximal tension were unchanged between groups at either time point. Cross-bridge cycling rate was significantly decreased in diabetes, as indexed by tension cost (early control 5.4 +/- 0.4 and early diabetes 4.2 +/- 0.3; and late control 6.0 +/- 0.2 and late diabetes 4.2 +/- 0.2; P < 0.05). Because rodent models of cardiac disease are confounded by altered myosin isoform distribution, myosin content was determined by SDS-PAGE and densitometry. The cardiac content of alpha-myosin in diabetes was decreased to 41% +/- 4.1 at 6 wk and 32.5% +/- 2.9 at 12 wk of diabetes (early control 77.8% +/- 3.3 and late control 73.6% +/- 2.5). Separate control experiments demonstrated a linear decrease in tension cost with decreased alpha-myosin content. Given this, the depression of tension cost in this rodent model of diabetes could be fully explained by the altered myosin isoform distribution.
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PMID:Depressed cardiac tension cost in experimental diabetes is due to altered myosin heavy chain isoform expression. 1500 37

Alongside increased proteolysis, the inability to repair damaged skeletal muscle is a characteristic feature of uncontrolled diabetes. This study evaluates the role of oxidative stress in muscle-specific gene regulatory regions and myosin chain synthesis in streptozotocin (STZ)-induced diabetic and ZDF rats. In the gastrocnemius muscle of diabetic rats, prooxidant compounds were seen to increase while antioxidant levels fell. Myogenic regulatory factors--Myo, myogenin, and Jun D--were also reduced, and muscle enhancer factor (MEF)-1 DNA binding activity was impaired. Moreover, synthesis of muscle creatine kinase and both heavy and light chains of myosin were impaired, suggesting that oxidative stress triggers the cascade of events that leads to impaired muscle repair. Dehydroepiandrosterone has been reported to possess antioxidant properties. When it was administered to diabetic rats, in addition to an improved oxidative imbalance there was a recovery of myogenic factors, MEF-1 DNA binding activity, synthesis of muscle creatine kinase, and myosin light and heavy chains. Vitamin E administration to STZ-induced diabetic rats reverses oxidative imbalance and improves muscle gene transcription, reinforcing the suggestion that oxidative stress may play a role in diabetes-related impaired muscle repair.
Diabetes 2004 Apr
PMID:Oxidative stress impairs skeletal muscle repair in diabetic rats. 1504 25

Celiac sprue is permanent lifelong intolerance of gluten which in some sensitive individuals leads to an inflammation of various grades followed by atrophy of jejunum mucosa. Diagnosis of celiac sprue is based on proof of histopathological changes in jejunum mucosa as a result of presence of gluten in food. In recent years, serum endogenous myosin and tissue transglutaminase antibodies were used in a diagnostic algorithm. We distinguish active, silent, latent, and potential celiac sprue. Simultaneous incidence of type I diabetes mellitus and celiac sprue has been documented in a range of studies. Both diseases have common immunology and genetic characters. Prevalence of celiac sprue in patients with type I diabetes is several times higher compared to prevalence of this disease in the population. There is the prevalence of celiac sprue 3.6-5.1% in children with type I diabetes mellitus in the Czech Republic, silent form of the disease is the most frequent one. An effect of a strict gluten free diet on a metabolic control of diabetes has not been proved. It is necessary to assess (at least once per two years) actively and on regular basis endogenous myosin and/or tissue transglutaminase antibodies in patients with type I diabetes.
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PMID:[Diabetes and celiac disease]. 1530 43

Chronic diabetes is often associated with cardiomyopathy, which may result, in part, from defects in cardiac muscle proteins. We investigated whether a 20-wk porcine model of diabetic dyslipidemia (DD) would impair in vivo myocardial function and yield alterations in cardiac myofibrillar proteins and whether endurance exercise training would improve these changes. Myocardial function was depressed in anesthetized DD pigs (n = 12) compared with sedentary controls (C; n = 13) as evidenced by an approximately 30% decrease in left ventricular fractional shortening and an approximately 35% decrease in +dP/dt measured by noninvasive echocardiography and direct cardiac catheterization, respectively. This depression in myocardial function was improved with chronic exercise as treadmill-trained DD pigs (DDX) (n = 13) had significantly greater fractional shortening and +dP/dt than DD animals. Interestingly, the isoform expression pattern of the myofibrillar regulatory protein, cardiac troponin T (cTnT), was significantly shifted from cTnT1 toward cTnT2 and cTnT3 in DD pigs. Furthermore, this change in cTnT isoform expression pattern was prevented in DDX pigs. Finally, there was a decrease in baseline levels of cAMP-dependent protein kinase-induced phosphorylation of the myofibrillar proteins troponin I and myosin-binding protein-C in DD animals. Overall, these results indicate that 20 wk of DD lead to myocardial dysfunction coincident with significant alterations in myofibrillar proteins, both of which are prevented with endurance exercise training, implying that changes in myofibrillar proteins may contribute, at least in part, to cardiac dysfunction associated with diabetic cardiomyopathy.
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PMID:Exercise improves impaired ventricular function and alterations of cardiac myofibrillar proteins in diabetic dyslipidemic pigs. 1546 90

Diabetes mellitus is associated with an increased risk of heart failure, resulting from a specific cardiomyopathy independent of coronary atherosclerosis. It is not yet established whether altered myocardial function is related to changes in molecular mechanics of myosin. Accordingly, we investigated the total number, single force and kinetics of myosin crossbridges (CB) in a rat model of streptozotocin-induced diabetic cardiomyopathy. Experiments were conducted on left ventricular papillary muscles from male diabetic (D) Wistar (n = 16) and age-matched control (C) rats (n = 15). Mechanical indices including the maximum unloaded shortening velocity V(max) and the maximum total isometric tension normalized per cross-sectional area TF(max) were determined. Using A. F. Huxley's equations, we calculated the total cycling CB number per mm(2) Psi, the elementary force per single CB Pi, the maximum values of the rate constant for CB attachment f(1) and detachment g(1) and g(2), and the turnover rate of myosin ATPase per site k(cat). The D rats exhibited a 25% decrease in TF(max) and a 34% decrease in V(max) as compared to C. This contractile dysfunction was associated with a significant reduction in Psi (9.0 +/- 1.6 in D versus 11.4 +/- 1.9 10(9)mm(-2) in C, P < 0.001) without significant change in Pi (6.1 +/- 0.8 in D versus 6.3 +/- 0.9 pN in C, NS). In the 2 groups, TF(max) correlated positively with Psi (r = 0.76, P < 0.001 and r = 0.64, P < 0.01, in D and C respectively) but no relationship was found between TF(max) and Pi. As compared to C, D showed lower values of f(1), g(1) and g(2), and a slower turnover rate of myosin ATPase. Thus, present data suggested that the cardiac contractile impairment observed in streptozotocin-induced diabetic rat cardiomyopathy was mainly related to a decrease in active CB total number and CB kinetics alterations without significant change in CB single force.
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PMID:Changes in crossbridge mechanical properties in diabetic rat cardiomyopathy. 1564 63


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