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: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although inhibition of Na(+)-K+ ATPase has been described in the diabetic heart, K+ loss from myocardium has not been observed in a canine model of mild diabetes. The finding of tissue Na+ accumulation and a potential relation to alteration of left ventricular inositol as observed in other tissues in diabetes form the basis of this investigation. Diabetes was induced with alloxan in three groups of male mongrel dogs who were studied after 1 yr. In the initial experiment the tissue compartment volumes, determined with intravenous 51Cr EDTA as a marker, were found to be normal. Calculated cell sodium was increased to 32.8 +/- 2.6 mEq/kg cell H2O vs 18.7 +/- 1.1 in controls (p < 0.01). Cell potassium in diabetes was normal. In the second group, myocardial polyols were analyzed by gas-liquid chromatography. Inositol was diminished in diabetes to 0.61 +/- 23 microM/g of left ventricle, vs the respective control levels of 1.9 +/- 0.57 microM/g (p < 0.02). Sorbitol concentration was unaltered. Left ventricular sodium increments were not associated with altered tissue calcium. In group III the hypothesis that inhibition of Na(+)-K+ ATPase in diabetes might not elicit the expected alteration of K+ transport was assessed during intracoronary infusion of acetyl strophanthidin. No difference in cation responses from control was observed. It is postulated that a change in the conformation of Na(+)-K+ ATPase, with high affinity sodium binding sites facing the intracellular compartment, may render sodium less releasable from cell membrane.
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PMID:Myocardial inositol and sodium in diabetes. 133 48

1. Electrical parameters: short circuit current (SCC), transepithelial potential difference (PD) and electrical resistance (R) were measured in isolated frog skin (Rana pipiens) in the presence and in the absence of alloxan. 2. Alloxan decreased SCC and PD in a concentration-dependent pattern, while R remained unchanged. 3. The effect on SCC and PD was observed after 25 min of exposure to the drug. Maximal average effect was 20% in SCC and 17.5% in PD. 4. These results suggest that alloxan decreased epithelial sodium transport, through interference with the activity of the Na(+)-K(+)-ATPase.
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PMID:Inhibition of the transepithelial potential difference and short circuit current in the isolated frog skin by alloxan. 135 25

The evidence of sorbitol excess in the crystalline lens of alloxan-diabetic rats has led to anticipate the role of the enzyme aldose-reductase in the pathogenesis of the diabetic cataract. In addition, a number of experimental works have more recently shown the involvement of myoinositol deficiency, which probably results from the sorbitol accumulation. These metabolic pathways are most likely implicated in the pathogenesis of diabetic neuropathy and perhaps additionally in that of microangiopathy. The synthesis of several aldose-reductase inhibitors (AR inhibitors) confirmed experimentally these hypothesis. By reducing the activity of the enzyme aldose-reductase, these substances suppress the adverse metabolic consequences of polyol accumulation, myositol deficiency and dysfunction of the Na+/K+ ATPase dependent sodium activity. Although different experimentations showed that the AR inhibitors could prevent in animals the development of experimental cataract as well as the early functional or later anatomic abnormalities of the diabetic retinopathy and nephropathy, the clinical trials did not clearly support these experimental results in humans. On the other hand, the AR inhibitors were proved to exhibit some efficacy in the early stage of diabetic neuropathy and in incipient nephropathy where they delay the development of albustix positive proteinuria. However, the benefit of an early treatment with AR inhibitors should be confirmed by long term prospective studies, which could also assess the safety of these drugs in chronic administration.
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PMID:[Role of polyols in the development of diabetic complications. Value of aldose-reductase inhibitors]. 141 Aug 79

Bovine brain gangliosides have been shown to prevent decay in Na+,K(+)-ATPase activity in sciatic and optic nerves of alloxan- and streptozotocin-diabetic rats. In the search for a drug with greater bioavailability and increased incorporation into neural tissue, ganglioside inner ester derivatives (AGF1) were recently developed. We evaluated the effect of AGF1 treatment on Na+,K(+)-ATPase activity in homogenates of vagus nerve from alloxan-diabetic rats (100 mg/kg s.c.). Animals were treated with AGF1: 10 mg/kg 6 days/week i.p., or 30 mg/kg biweekly i.p. Treatment began 10 d post-alloxan and continued for 8 consecutive weeks. Normal age- and sex-matched rats were used as controls. Alloxan intoxication produced a 39% decrease in Na+,K(+)-ATPase activity of the vagus nerve, which was completely restored (96-97% recovery) by both AGF1 regimes. Results suggest that ganglioside inner ester derivatives may be used in the clinical setting for the management of diabetic autonomic neuropathy.
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PMID:Inner ester derivatives of gangliosides protect autonomic nerves of alloxan-diabetic rats against Na+, K(+)-ATPase activity defects. 165 21

Reports of increased corneal thickness and altered endothelial morphology suggest that there is abnormal corneal hydration control in diabetic patients. To study the possible influence of hyperglycemia on corneal hydration control, experiments were done on normal and alloxan-induced diabetic rabbits to assess: (1) stromal dry weight, hydration, and swelling pressure; (2) corneal thickness and contact lens-induced edema recovery responses; and (3) endothelial homogenate sodium/potassium adenosinetriphosphatase (Na+/K+ ATPase) activity. The data show that 10 weeks of uncontrolled hyperglycemia in the rabbit results in abnormal corneal hydration control indicated by increased corneal thickness, increased stromal hydration, and a decreased ability to recover from contact lens-induced corneal edema. The stroma appears to be minimally involved in these changes; swelling pressures and dry weights of the normal and diabetic stroma were not significantly different. The measured decrease in diabetic rabbit endothelial homogenate Na+/K+ ATPase activity strongly suggests that endothelial fluid pump dysfunction is a major component in the abnormal corneal hydration control found in the uncontrolled diabetic rabbit.
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PMID:Corneal hydration control in normal and alloxan-induced diabetic rabbits. 217 81

Sorbitol pathway activity, myo-inositol content and ouabain-sensitive and ouabain-resistant ATPase activities were measured in homogenates of the sciatic nerve from alloxan-induced diabetic rats for 4, 8 and 12 weeks. Compared with the age-matched control, glucose, fructose and sorbitol contents of the sciatic nerve from diabetic rats for 4, 8 and 12 weeks were increased respectively to a level of 3-4 fold, 3-5 fold and 6-9 fold of those of the control rats. Myo-inositol was reduced approximately 50%. There was a significant decrease (P less than 0.01) in total ATPase, ouabain-sensitive and ouabain-resistant ATPase activities. These changes could be relevant to the development of diabetic neuropathy.
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PMID:[Alterations in the sorbitol pathway and Na(+)-K(+)-ATPase activity of peripheral nerve of alloxan-induced diabetic rats]. 217 49

Diminished Na+-K+-ATPase activity in diabetic peripheral nerve plays a central role in the early electrophysiological, metabolic, and morphological abnormalities of experimental diabetic neuropathy. The defect in Na+-K+-adenosinetriphosphatase (ATPase) regulation in diabetic nerve is linked experimentally to glucose- and sorbitol-induced depletion of nerve myo-inositol but is not fully understood at a molecular level. Therefore, regulation of nerve Na+-K+-ATPase activity by phosphoinositide-derived diacylglycerol was explored as the putative link between myo-inositol depletion and the Na+-K+-ATPase impairment responsible for slowed saltatory conduction in diabetic animal models. In vitro exposure of endoneurial preparations from alloxan-diabetic rabbits to two protein kinase C agonists, 4 beta-phorbol 12 beta-myristate 13 alpha-acetate and 1,2-(but not 1,3-) dioctanoyl-sn-glycerol, for as little as 1 min completely and specifically corrected the 40% decreased enzymatically measured ouabain-sensitive ATPase activity. Neither of these agonists affected ouabain-sensitive ATPase activity in endoneurial preparations derived from nondiabetic controls. These observations are compatible with the hypothesis that metabolites of electrically stimulated phosphoinositide turnover such as diacylglycerol acutely regulate nerve Na+-K+-ATPase activity, probably via protein kinase C, thereby tightly coupling energy-dependent Na+-K+-antiport with impulse conduction in peripheral nerve. Glucose-induced depletion of myo-inositol presumably limits phosphoinositide turnover and diacylglycerol production, thereby disrupting this putative regulatory mechanism for Na+-K+-ATPase in diabetic peripheral nerve.
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PMID:In vitro correction of impaired Na+-K+-ATPase in diabetic nerve by protein kinase C agonists. 253 78

ATPase activities were measured in sciatic nerves from rats with alloxan-induced diabetes (ALX-D) of various duration (2 wk, 5 wk, 9 wk, and 6 mo). Our data confirm that sciatic nerve Na+-K+-ATPase abnormalities are present very early in ALX-D rats, similar to results previously described in streptozocin-induced diabetic rats, spontaneously diabetic BB Wistar rats, and ALX-D rabbits. Na+-K+-ATPase activity decreased by 26-47% in ALX-D rats compared with age-matched controls. Ganglioside treatment (10 mg/kg i.p. for 10 or 30 days starting 1 wk after ALX injection) completely impeded the enzyme reduction. The effect observed at the end of either 10 or 30 days of treatment lasted greater than or equal to 1 mo. Chronic diabetic groups treated for 30 days before killing also presented normal ATPase activity at the end of treatment. Therefore, gangliosides are effective on Na+-K+-ATPase even in animals with a longer duration of diabetes. The maintenance of fairly normal ATPase activity by ganglioside treatment could mirror a more general recovery from early metabolic dysfunction and/or late structural abnormalities in diabetic nerve fibers.
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PMID:ATPase activity defects in alloxan-induced diabetic sciatic nerve recovered by ganglioside treatment. 284 6

Diabetes produced by injection of alloxan or streptozotocin results in cardiac dysfunction in rats that is associated with lower cardiac contractile protein ATPase activity. The purpose of this investigation was to examine cardiac myosin biochemistry in the Bio-Breeding Worcester (BB/W) rat, a strain in which diabetes occurs spontaneously and closely resembles insulin-dependent diabetes in humans. Hearts from diabetic BB/W rats were studied at 1, 4, and 7 mo after the onset of diabetes and were compared with age-matched BB/W rats that were bred for resistance to diabetes. Calcium-stimulated myosin ATPase activity was significantly decreased after 4 and 7 mo of diabetes, and actin-activated myosin ATPase was significantly depressed at all time points. Differences between hearts from control and diabetic animals increased with the duration of diabetes. Closely associated with reductions in myosin ATPase activity in the diabetes was a shift in the isomyosin content from the normally predominant V1 to the V3 isoenzyme. Thus diabetes that results from genetic causes leads to depressed myosin enzymatic activity in the rat. Furthermore, since previous studies have shown that BB/W diabetic rats do not develop hypothyroidism, the present results support the view that altered thyroid function does not mediate the abnormalities in cardiac contractile proteins in diabetes.
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PMID:Abnormal cardiac biochemistry in spontaneously diabetic Bio-Breeding/Worcester rat. 293 20

In rats, chronic diabetes is associated with depressed cardiac myosin ATPase activity and a shift from the predominant V1 isoenzyme to V3, correlating with depressed contractility. Rabbit myocardium consists mostly of the V3 isoenzyme, and therefore a switch to even more V3 isoenzyme in diabetes might not be possible and therefore not explain the mechanical abnormalities observed. To explore this, rabbits were made diabetic with 140-150 mg/kg of alloxan, and their hearts were studied 3 days, 1 mo, 3 mo, and 6 mo later. Ca2+-myosin-ATPase activity was decreased in the diabetic rabbit at 1, 3, and 6 mo, correlating with increased percent V3. Actin-activated Mg2+-ATPase activity was not significantly decreased in diabetics, but myofibrillar ATPase activity was decreased in 6-mo diabetic animals. When 3- to 4-mo diabetic animals were administered insulin for 3-4 additional months, myosin-ATPase activity and isoenzyme distribution normalized. These results correlate well with mechanical changes in papillary muscle from these same hearts. They suggest that in rabbit, as in rat, changes in cardiac contractile function are at least partially mediated by changes in myosin isoenzyme composition and are reversible with insulin.
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PMID:Effects of diabetes on cardiac contractile proteins in rabbits and reversal with insulin. 294 66


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