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)

Depletion of lens glutathione (GSH) occurs quickly and drastically following induction of diabetes or galactosemia in rats as well as in lens culture. The explanation for this dramatic loss of GSH has been investigated by many laboratories but the solution has been elusive. There are several possible causes for the change in the reducing power of the lens under hyperglycemia. (a) The enzyme glutathione reductase which reduces oxidized glutathione to GSH is inhibited. (b) The cofactor NADPH which both the aldose reductase of polyol pathway and glutathione reductase require becomes depleted under hyperglycemia to the point that there is an insufficient amount for glutathione reduction. (c) Membrane permeability is increased, due to osmotic-induced lens hydration. We explored all the above possibilities in the mechanism of GSH depletion and studied the effect of aldose reductase inhibitor (ARI) on osmotic change. We found that under hyperglycemic condition, there was no change in the enzyme glutathione reductase activity. There was an initial drop in NADPH level but there was sufficient remaining for glutathione reductase use. Both NADPH and glutathione depletion could be prevented completely by ARI. In addition, ARI could also prevent any hyperglycemic-induced abnormal transport and leakage of amino acids. We have therefore concluded that only the decreased membrane transport of amino acids which are needed for glutathione biosynthesis and the simultaneous loss of GSH through leaky membrane as initiated by the polyol pathway can be responsible for the drastic GSH depletion.
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PMID:Glutathione depletion in the lens of galactosemic and diabetic rats. 313 35

Accumulation of sorbitol or galactitol and depletion of myo-inositol in hyperglycemic conditions such as diabetes and galactosemia involve the activity of aldose reductase and are implicated in hyperglycemia-induced complications such as cataract and neuropathy. A high-performance liquid chromatographic method has been developed for the measurement of polyols in the lens and sciatic nerve of rats. This method comprises polyol extraction from tissues, lyophilization of extracts, derivatization of polyols by the reaction with phenylisocyanate, and HPLC of derivatives with detection at 240 nm. The time needed for each run is less than 25 min, which allows the testing of a large number of samples per day. Sensitivity is very high: as low as 0.5 nmol each of sorbitol, galactitol, and myo-inositol in lyophilized extracts of tissues can be determined. The present method offers a reliable tool to evaluate the in vivo activities of aldose reductase and its inhibitors.
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PMID:Analysis of sorbitol, galactitol, and myo-inositol in lens and sciatic nerve by high-performance liquid chromatography. 318

This study examined the induction of electroretinogram abnormalities in hyperglycemia and the possible role of increased polyol pathway activity in the development of these changes. Both diabetic hyperglycemia and galactosemia caused the prolongation of peak latencies and in some cases a reduction in the amplitudes of oscillatory potentials on the b-wave. Diabetic hyperglycemia-associated abnormalities were prevented and normalized by insulin or ADN-138, an aldose reductase inhibitor. Galactosemia-induced abnormalities were inhibited by ADN-138, and were reversed either by ADN-138 treatment or by withdrawal of galactose from the diet. Polyol accumulation was prevented by insulin or ADN-138, and the elevated polyol level was reversed by insulin, ADN-138, or withdrawal of galactose in diabetic hyperglycemia and/or galactosemia. These results suggest that the increased polyol pathway activity in the hyperglycemia may be involved in the development of electroretinogram abnormalities similar to those in human diabetes; therefore, ADN-138 could be a useful drug for therapy of retinopathy in the early diabetic stage.
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PMID:The development of electroretinogram abnormalities and the possible role of polyol pathway activity in diabetic hyperglycemia and galactosemia. 328 32

Diabetes and aging are associated with an increase in collagen-linked fluorescence and cross-linking that can be duplicated by incubating collagen with glucose. We have tested the hypothesis that browning and cross-linking can occur in vivo in rats by feeding them a diet containing 33% galactose. No significant increase in tail tendon browning or cross-linking, measured by tail tendon breaking time in urea, was observed after 3 mo of galactosemia. After 12 mo, however, twofold increases in tendon breaking time and collagen-linked chromophores absorbing greater than 300 nm and fluorophores at 430 nm (excitation 355 nm, P less than .001) analogous to those of diabetic and aging individuals were observed. The observed changes in collagen are attributed to the advanced Maillard (nonenzymatic glycosylation) reaction based on circumstantial evidence. With this premise, our data suggest that chronic galactosemia should be a powerful tool for investigating the role of the advanced Maillard reaction in complications of diabetes and aging.
Diabetes 1988 Jul
PMID:Collagen browning and cross-linking are increased in chronic experimental hyperglycemia. Relevance to diabetes and aging. 338 85

In patients with diabetes mellitus nonenzymatic glycosylation of hemo-globin is a result of increased blood glucose concentrations. In analogy glycosylated hemo-globin fractions were determined in 23 patients with hereditary fructose intolerance (HFI) and 8 patients with galactosemia (G) by means of hemoglobin chromatography on a column packed with Bio-Rex 70 resin. The concentrations were compared to those of 14 control patients and 43 patients with type 1 diabetes mellitus. Compared to controls, in HFI- and G-patients HbAlab was significantly increased. In contrast diabetic patients presented with a marked and significant increase of the HbAlc fraction. When purified hemoglobin was incubated with different monosaccharides respectively monosaccharide phosphates, an increase of HbAlab resulted mainly after galactose and fructose-1-phosphate. The determination of HbAlab in patients with HFI and G is considered a possible means of metabolic control.
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PMID:Increased concentrations of HbAlab in hereditary fructose intolerance and galactosemia. 358 91

This study was designed to examine the effect of exaggerated polyol-pathway flux on sciatic nerve content of polyols, myo-inositol, and water. Rats with streptozocin-induced diabetes of 3- and 12-wk duration and nondiabetic rats fed for 5 days on a diet containing 20% galactose were employed initially. All three conditions showed marked elevation of nerve polyol content, combined with fructose accumulation in the diabetic rats. Galactose-fed rats showed a significant (P less than .01) increase in nerve water content of approximately 30% (when expressed as water/unit dry wt tissue). Diabetic rats showed no change in nerve water. Both diabetic and galactose-fed rats showed a depletion of nerve free myo-inositol, although the extent of depletion was greater in the latter. All these changes were prevented or attenuated by the aldose reductase inhibitor Statil (ICI 128436). When diabetic rats were fed a 20% galactose diet for 5 days, nerves of 3- but not 12-wk diabetic rats showed marked increases in water content. A more mild degree of galactosemia, induced by 5 or 21 days of feeding a diet containing 10% galactose to nondiabetic rats, provoked an increase in nerve water content associated with polyol levels of a similar order to those seen in diabetes. We do not know why polyol-pathway metabolites cause nerve hyperhydration in galactosemia but not in streptozocin-induced diabetes. Such differences urge caution in the use of galactose feeding to model the consequences of exaggerated polyol-pathway flux in nerve to face questions related to neuronal dysfunction in diabetes.
Diabetes 1987 Dec
PMID:Does galactose feeding provide a valid model of consequences of exaggerated polyol-pathway flux in peripheral nerve in experimental diabetes? 367 22

To evaluate the role of hyperglycemia in the pathogenesis of diabetic nephropathy, the kidneys from dogs experimentally galactosemic for 5 yr have been compared with the kidneys from age-matched normal dogs and dogs with alloxan-induced diabetes for 5 yr. The width of glomerular capillary basement membrane and the quantity of plasma protein immunohistochemically demonstrable in the basement membrane were supranormal in the galactosemics, as they were in the diabetics. In contrast, kidney weight, mesangial volume, and the prevalence of obliterated glomeruli, glomerular exudates, and mesangial nodules in the galactosemic animals were comparable to those of normal animals and clearly were less than observed in the insulin-deficient diabetic animals. These galactosemic dogs are known to have developed a retinopathy morphologically indistinguishable from that of diabetic patients and dogs. Thus, galactosemia sufficient to produce diabetic-like lesions in the glomerular basement membrane and retina was found to be nevertheless insufficient to elicit several renal abnormalities that are typical of diabetes. The polyol concentration in erythrocytes was greater than normal in the galactosemics and the diabetics and was greatest in the galactosemics. The absence of mesangial expansion, glomerular obliteration, and nephromegaly in galactose-fed dogs raises the possibility that these abnormalities in diabetes are not a result of excessive polyol pathway activity.
Diabetes 1987 Feb
PMID:Kidney morphology in experimental hyperglycemia. 380 34

Aldose reductase is implicated in the pathogenesis of sugar cataracts; therefore, inhibition of this enzyme subsequent to cataractogenesis may represent a therapeutic approach for the restoration of lens physiology despite the persistence of diabetes or galactosemia. In the present study, the effect of aldose reductase inhibition subsequent to stage-I cataract formation was investigated in the galactose-maintained rat. Our results indicated that despite continuation of galactose feeding the aldose reductase inhibitor, Sorbinil, a spirohydantoin, arrested further progression and promoted a reparative process. Quantitative analysis of scanning electron micrographs indicated that the afflicted lens regions were contained and their cellular components stabilized with regard to fiber hydration and interdigitation. The reparative process involved: decrease in lens dulcitol, gradual recovery of fiber thickness and partial restoration of lens myo-inositol content. At this stage of cataractogenesis, despite continuance of galactose feeding, the effects of Sorbinil treatment were comparable to the reparative process achieved by restoration of a normal diet.
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PMID:Reversal of stage-I sugar cataract by Sorbinil, an aldose reductase inhibitor. 392 28

Fluorophotometry was used to evaluate the blood-ocular barrier in rats following streptozocin-induced diabetes, experimental systemic hypertension, sodium iodate treatment, diet-induced galactosemia, and aldose reductase inhibitors. After administration of intravenous (IV) fluorescein sodium, diabetes, hypertension, or sodium iodate treatment resulted in an increased vitreous accumulation of IV fluorescein. Accumulation of dextran-labeled fluorescein (3,000 and 19,000 molecular weight [mol wt]) was not increased in diabetic or sodium iodate-treated animals. However, 3,000-mol wt dextran-labeled dye accumulated in the vitreous of hypertensive rats. The disappearance of fluorescein injected into the vitreous was significantly delayed in diabetic and sodium iodate-treated rats, whereas this rate was normal in hypertension animals. Galactosemia did not alter vitreous fluorophotometric measurements. Pretreatment for systemic effects with aldose reductase inhibitors did not correct the vitreous fluorophotometric measurements of diabetic rats.
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PMID:Fluorometric studies on the blood-retinal barrier in experimental animals. 617 19

Tissues of the eye affected by diabetes are the lens, cornea, and retina. The lens becomes cataractous through osmotic swelling of its cortical fibers. Sorbitol, formed in the presence of aldose reductase, accumulates in the lens during hyperglycemia. Dulcitol similarly accumulates in the presence of galactosemia. Cataractogenesis in both cases can be prevented by inhibitors of aldose reductase. The efficacy of synthetic inhibitors differs in various tissues and species, but they react with aldose reductase at a common structural site. The most promising inhibitor is sorbinil . Diabetic retinopathy is similarly related to sorbitol accumulation and may be prevented or reversed by inhibition of aldose reductase. Healing of corneal wounds in diabetes is facilitated by enzyme inhibition. Retinal vasculopathy of diabetes is due to selective loss of the intramural pericytes that normally form structural elements in the retinal capillary walls. The vulnerability of these cells is due to their aldose reductase content. Whether inhibition of aldose reductase will prevent retinopathy is being tested in a randomized trial conducted by the National Eye Institute.
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PMID:NIH conference. Aldose reductase and complications of diabetes. 620 54


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