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

In the paper the author is concerned with the histochemical estimation of the metabolic adaptation of the heart muscle of albino rats during an early experimental alloxan diabetes. It has been found that the state of experimentally produced insulin deficiency directly influences metabolism of the heart muscle and the changes observed in the histochemical reactions prove this. An increase in the intensity of histochemical reactions concerns the PAS-positive reaction and the reactions to the NADH and NADPH tetrazole reductase activities. Alkaline phosphatase shows a decrease in the enzymatic activity, whose nature is transitional and reversible with regard to cytochrome oxidase and ATP-ase. The histochemical picture of metabolic changes depends on the duration time of experimental diabetes.
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PMID:Some histochemical observations on the myocardial metabolism in experimental conditions. Part I. 21 83

The effects of norepinephrine and insulin on thermogenesis were investigated in adipocytes isolated from brown adipose tissue (BAT) of obese non-diabetic LA/N-cp rats (obese LA), obese diabetic SHR/N-cp rats (obese SHR), and their corresponding lean controls. The maximal calorigenic response (Vmax) and the sensitivity [50% effective concentration (EC50)] to norepinephrine (1 microM) were markedly reduced in brown adipocytes from obese SHR rats compared with their lean controls (3- to 4-fold decrease in the Vmax and 50% increase in the EC50 value). In the same cells, there was a similar decrease in the respiratory response to dibutyryl adenosine 3',5'-cyclic monophosphate, indicating the presence of a major postreceptor defect. Remarkably, total BAT cytochrome oxidase activity (an index of cellular mitochondrial content) was also diminished three to four times in obese SHR rats, suggesting that a reduced BAT mitochondrial content is responsible for the decreased thermogenesis. Ultrastructural studies revealed that the cytoplasm of brown adipocytes from obese SHR rats contained a large lipid droplet, numerous tiny droplets, and few atypical mitochondria with loosely packed cristae. Adipocytes from obese SHR rats were also characterized by a significant resistance to the antithermogenic effect of insulin but not to that of the nonmetabolizable adenosine analogue N6-phenylisopropyl adenosine. In contrast, all the above biochemical parameters were normal in obese LA rats. These results demonstrate that the marked insulin resistance in BAT of obese SHR rats is associated with a decreased responsiveness and sensitivity to norepinephrine, indicating the presence of receptor and postreceptor defects. It is suggested that insulin resistance and/or diabetes in SHR/N-cp rats lead to a decreased mitochondriogenesis in BAT, which results in a reduced thermogenic capacity, thereby contributing to the development of obesity.
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PMID:Major thermogenic defect associated with insulin resistance in brown adipose tissue of obese diabetic SHR/N-cp rats. 165 55

We previously reported that the decreased sensitivity of brown adipose tissue (BAT) from obese Zucker rats to the calorigenic effects of norepinephrine is associated with a marked resistance to insulin, and we suggested that this defect may explain, at least in part, the increased energy gain efficiency of fa/fa rats. To test whether insulin resistance and/or diabetes leads to a reduced BAT thermogenesis in other genetic models of obesity, we compared BAT metabolic properties of obese Zucker rats with that of obese-nondiabetic LA/N-cp and obese-diabetic SHR/N-cp rats. It was found that the responsiveness and sensitivity of isolated brown adipocytes to the calorigenic effects of norepinephrine (10-100 mM) were markedly reduced in SHR/N-cp rats as compared to their lean controls (the Vmax was decreased by 3-4 times and the EC50 value was doubled). In the same cells, there was a similar decrease in the respiratory effects of dibutyryl cAMP (DBcAMP), revealing the presence of a major post-receptor defect. Remarkably, total cytochrome oxidase activity (an index of cell mitochondrial content) was also decreased by 3-4 times in SHR/N-cp rats, suggesting that a reduced BAT mitochondrial content is responsible for the defective thermogenesis. Similarly to Zucker rats, adipocytes isolated from SHR/N-cp rats were resistant to the metabolic effects of insulin (glucose transport and antithermogenesis). Cells from obese Zucker rats were also desensitized to the metabolic effects of norepinephrine and insulin but their thermogenic capacity was not reduced. In contrast, all the above parameters were normal in obese-nondiabetic LA/N-cp rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanism linking insulin resistance to defective thermogenesis in brown adipose tissue of obese diabetic SHR/N-cp rats. 166 83

The role of insulin in the regulation of the thermogenic activity and capacity (uncoupling protein content) of brown adipose tissue (BAT) has been investigated using mice made diabetic with streptozotocin and then subsequently infused with different doses of insulin. After 12 days of diabetes, the animals received either 0, 8, 16, or 32 units of insulin.kg body wt-1.day-1 delivered by osmotic minipumps implanted subcutaneously for 12 days. After 12 days of diabetes, body weight, interscapular BAT, and epididymal white adipose tissue weights were each reduced. In BAT, significant decreases (P less than 0.05) in the mitochondrial protein content (63%), cytochrome oxidase activity (79%), mitochondrial GDP binding (51%), and the specific mitochondrial concentration and total tissue content of uncoupling protein (71 and 89%, respectively) were obtained, indicating that the thermogenic activity and capacity of the tissue were reduced in diabetes. The infusion of insulin at a dose of 8 units.kg-1.day-1 normalized mitochondrial GDP binding and doubled the concentration of uncoupling protein. Body weight, epididymal white adipose tissue weight, and the mitochondrial protein content of BAT were restored with 16 units of insulin.kg-1.day-1. Higher doses of insulin did not further increase the specific mitochondrial concentration of uncoupling protein, but the mitochondrial content (and thereby the total uncoupling protein content) of BAT was increased and blood glucose normalized. There was a significant correlation between the dose of insulin replacement and several of the parameters measured in BAT: mitochondrial protein content (r = 0.68, P less than 0.001), cytochrome oxidase activity (r = 0.54, P less than 0.001), and total uncoupling protein content (r = 0.68, P less than 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of the level of uncoupling protein in brown adipose tissue by insulin. 213 90

We have investigated the effects of diabetes on retinal oxidative metabolism. Since activity of the mitochondrial enzyme, cytochrome oxidase, has been demonstrated to be a reliable indicator of oxidative metabolism and physiological activity, we used cytochemical techniques to study the activity of this enzyme in spontaneously diabetic, streptozotocin-diabetic, and control rat retinas. Light microscope results showed an increase in staining for cytochrome oxidase activity in the diabetic RPE cell layer as compared with the control. Quantitative electron microscope analysis showed a significant increase in RPE cells with highly reactive mitochondria as compared with the controls. Mitochondrial staining within the diabetic photoreceptor and retinal vascular endothelial cells was normal. RPE cell volume and surface area, as well as number and volume of mitochondria, were unchanged. This increase in oxidative enzyme activity is further evidence of RPE cell alteration in diabetes.
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PMID:Increased cytochrome oxidase activity in the diabetic rat retinal pigment epithelium. 253 41

A case of mitochondrial encephalomyopathy (Kearns-Sayre syndrome) with corneal endothelial abnormality is reported. A 22-year-old woman had retinitis pigmentosa, external ophthalmoplegia, complete heart block, ataxia, muscle weakness, dementia, sensorineural hearing loss, and was of short stature. Renal dysfunction, diabetes mellitus, and amenorrhea were also observed. Biopsy revealed decreased cytochrome c oxidase (complex IV) activity in muscle mitochondria. The corneal endothelium examined by specular microscope showed decreased cell density, severe polymegathism, and pleomorphism in both eyes. To our knowledge, this is the first report concerning primary corneal endothelial abnormality in a case with mitochondrial encephalomyopathy. The corneal endothelium is one of the tissues that could be affected by the enzyme deficiency present in this disease.
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PMID:Corneal endothelium in a case of mitochondrial encephalomyopathy (Kearns-Sayre syndrome). 274 82

To assess the effects of chronic diabetes on in vivo myocardial reactivity to beta 1 adrenergic receptor stimulation and to evaluate the therapeutic effect of exercise training in preventing the cardiac abnormalities induced by diabetes four groups of rats were studied: sedentary control, trained control, sedentary diabetic, and trained diabetic. Trained rats were adapted to treadmill running before the induction of diabetes with streptozotocin 55 mg.kg-1 iv. The duration, speed, and grade of exercise were then progressively increased during eight weeks of training until the rats could run for 90 min at 18 m/min, 5% grade. A training effect was confirmed by an increase in plantaris muscle cytochrome oxidase activity. In vivo cardiac contractile performance was assessed by intracardiac catheterisation. Heart rate, left intraventricular peak systolic pressure, and positive and negative dP/dt were measured under basal conditions and after the intravenous administration of dobutamine 10(-10) to 5 x 10(-7) mol.kg-1 body weight. Under basal conditions, there were no differences among the four groups in left intraventricular peak systolic pressure, positive dP/dt, and heart rate, but negative dP/dt was lower in both diabetic groups. The response to dobutamine of the sedentary diabetic group, as reflected in the measured cardiodynamic variables, was significantly attenuated compared with that of the sedentary control group. Exercise training tended to improve cardiac function towards the level detected in the sedentary controls; however, the differences between sedentary and trained diabetic groups were not statistically significant. Exercise training also did not significantly alter the response of the control group to dobutamine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Depressed in vivo myocardial reactivity to dobutamine in streptozotocin diabetic rats: influence of exercise training. 285 56

The purpose of this study was to determine whether exercise training would prevent the progressive functional decline in pump function of hearts from diabetic rats. Four groups were studied: sedentary control, trained control, sedentary diabetic, and trained diabetic. Trained rats were adapted to the treadmill prior to induction of diabetes in half of the group streptozotocin injected (50 mg/kg). Thereafter the duration, speed, and grade were then progressively increased until the trained rats could run for 60 min at 27 m/min, 5% grade (wk 8). Cardiac output and work were measured in isolated working hearts perfused at various left atrial filling pressures and with buffer containing the concentrations of glucose and fatty acids found in vivo. Sedentary diabetic rats had lowered body weight, elevated plasma glucose, triacylglycerol, and cholesterol. Exercise training of diabetic rats lowered plasma triacylglycerol levels. Training increased plantaris muscle cytochrome oxidase activity significantly in both the trained control and trained diabetic groups. Cardiac pump function was impaired in hearts from the sedentary diabetic rats perfused with either normal or diabetic substrate conditions, but the impairment was larger under diabetic conditions. Training of diabetic rats prevented this depression. Myocardial carnitine content was decreased in hearts from sedentary diabetic rats. Exercise training increased carnitine content in both control and diabetic rats. This training protocol did not affect cardiac pump function of the trained control group. These results suggest that exercise training may limit the myocardial contractile dysfunction associated with diabetes mellitus.
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PMID:Myocardial adaptation to endurance exercise training in diabetic rats. 303 47

The combined influence of diabetes and moderate treadmill exercise training on select metabolic and cardiovascular parameters was investigated with mature male Sprague-Dawley rats assigned to either control diabetic or diabetic groups receiving exogenous insulin. Experimental diabetes was induced with streptozotocin (80 mg.kg-1, i.v.) and verified by blood glucose concentrations greater than 16 mmol. The animals were designated as control, insulin-injected (5 U.kg-1, twice daily), or saline-injected (twice daily), and assigned to either non-trained or trained sub-groups. Insulin treatment partially restored the measured physiological functions to within normal limits. All animals were trained at 60 to 70% maximal oxygen consumption for 9 wk and exhibited higher maximal oxygen consumption values and cytochrome oxidase activity of the soleus muscles. Diabetes caused lower (P less than 0.05) reductions in resting heart rate but training-induced bradycardia did not occur in any group. Heart rate response to atropine sulfate (1 mg.kg-1, atrial choline acetyltransferase activity, atrial acetylcholine concentration, and quinuclidinyl benzilate binding was measured to evaluate changes in the parasympathetic nervous system. Atropine-induced cardiac acceleration was most pronounced in control and least effective in diabetic animals. Endurance training had no meaningful influence on this response to cholinergic inhibition. Quinuclidinyl benzilate binding for the diabetic and the diabetic groups receiving insulin revealed no change in receptor number, receptor affinity, or training effects. These findings indicated that 9 wk of exercise training improves the aerobic capability of insulin-deficient rats without changing cardiovascular characteristics associated with the parasympathetic nervous system.
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PMID:Select cardiovascular and metabolic responses of diabetic rats to moderate exercise training. 331 5

Heart mitochondria from chronically diabetic rats ('diabetic mitochondria'), in metabolic State 3, oxidized 3-hydroxybutyrate and acetoacetate at a relatively slow rate, as compared with mitochondria from normal rats ('normal mitochondria'). No significant differences were observed, however, with pyruvate or L-glutamate plus L-malate as substrates. Diabetic mitochondria also showed decreased 3-hydroxybutyrate dehydrogenase and succinyl-CoA: 3-oxoacid CoA-transferase activities, but cytochrome content and NADH-dehydrogenase, succinate dehydrogenase, cytochrome oxidase and acetoacetyl-CoA thiolase activities proved normal. The decrease of 3-hydroxybutyrate dehydrogenase activity was observed in diabetic mitochondria subjected to different disruption procedures, namely freeze-thawing, sonication or hypoosmotic treatment, between pH 7.5 and 8.5, at temperatures in the range 6-36 degrees C, and in the presence of L-cysteine. Determination of the kinetic parameters of the enzyme reaction in diabetic mitochondria revealed diminution of maximal velocity (Vmax) as its outstanding feature. The decrease in 3-hydroxybutyrate dehydrogenase in diabetic mitochondria was a slow-developing effect, which reached full expression 2-3 months after the onset of diabetes; 1 week after onset, no significant difference between enzyme activity in diabetic and normal mitochondria could be established. Insulin administration to chronically diabetic rats for 2 weeks resulted in limited recovery of enzyme activity. G.l.c. analysis of fatty acid composition and measurement of diphenylhexatriene fluorescence anisotropy failed to reveal significant differences between diabetic and normal mitochondria. The Arrhenius-plot characteristics for 3-hydroxybutyrate dehydrogenase in membranes of diabetic and normal mitochondria were similar. It is assumed that the variation of the assayed enzymes in diabetic mitochondria results from a slow adaptation to the metabolic conditions resulting from diabetes, rather than to insulin deficiency itself.
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PMID:Decreased rate of ketone-body oxidation and decreased activity of D-3-hydroxybutyrate dehydrogenase and succinyl-CoA:3-oxo-acid CoA-transferase in heart mitochondria of diabetic rats. 354 9


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