UMLS:C0011849 - FACTA Search

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

Experiments were conducted on rats with prolonged (6-9 months) alloxan diabetes; a study was made of the effect of naphthylimidoacetic acid (NIAA) on the blood glucose, fructose, cholesterol and sorbitol dehydrogenase level and also on the intensity of developing microangiopathies, according to biomicroscopy of the iris and electron microscopy of the muscle capillaries. Intramuscular injection of NIAA in a dose of 50 mg/kg of body weight for 30 days failed to alter the blood sugar level, but there was a significant fall of the fructose, cholesterol, sorbitol dehydrogenase content; the intensity of microvascular affection was also considerably diminished.
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PMID:[Use of naphthylimidoacetic acid in experimental diabetes mellitus in rats]. 741 16

These experiments were undertaken to assess the role of sorbitol dehydrogenase in mediating sorbitol pathway-linked neural and vascular dysfunction in rats with streptozocin-induced diabetes. 2-methyl-4-[N,N-dimethylsulfamoyl-piperazino]-pyrimidine (S-0773), a putative inhibitor of sorbitol dehydrogenase, was given in the drinking water to control and diabetic rats. After 5 weeks of diabetes, glycosylated hemoglobin levels were increased twofold and were unaffected by S-0773. Sorbitol levels in diabetic rats were increased 11- to 14-fold in ocular tissues and sciatic nerve; S-0773 increased sorbitol levels another 4-fold or more in these same tissues but had much smaller effects in other tissues. Diabetes-associated increases in fructose levels and lactate:pyruvate ratios in retina and in sciatic nerve were markedly attenuated by S-0773. S-0773 also attenuated, but did not completely normalize, impaired caudal nerve conduction and vascular dysfunction in ocular tissues, sciatic nerve, and aorta in diabetic rats. These observations, together with other evidence, suggest that sorbitol pathway-linked vascular dysfunction (in ocular tissues, peripheral nerve, and aorta) and electrophysiological dysfunction (in peripheral nerve) induced by diabetes are more closely linked to increased oxidation of sorbitol to fructose than to putative osmotic effects of elevated sorbitol levels or redox and metabolic imbalances associated with reduction of glucose to sorbitol by aldose reductase.
Diabetes 1995 Feb
PMID:Inhibition of sorbitol dehydrogenase. Effects on vascular and neural dysfunction in streptozocin-induced diabetic rats. 785 46

The polyol pathway, which comprises the enzymes aldose reductase and sorbitol dehydrogenase, is recognised to play a major role in the pathogenesis of diabetic complications. Although there has been extensive research on aldose reductase, the role of sorbitol dehydrogenase has been overlooked. This study examined the response of sorbitol dehydrogenase gene expression to streptozotocin-diabetes (STZ-diabetes) in the rat and whether these changes were reversed by insulin. STZ-diabetes increased testicular sorbitol dehydrogenase gene expression in a manner that was not reversible by insulin but had no effect on gene expression in kidney and brain. A secondary question was the relationship between sorbitol dehydrogenase and aldose reductase gene expression in STZ-diabetes. STZ-diabetes increased renal aldose reductase gene expression in a manner that was not reversible by insulin but had no effect on gene expression in the brain, testes and muscle. Thus, STZ-diabetes causes changes in sorbitol dehydrogenase gene expression which do not parallel those in aldose reductase, implying that expression of the two genes is not regulated via a common mechanism. Furthermore, changes in sorbitol dehydrogenase and aldose reductase gene expression cannot be fully explained on the basis of the osmoregulatory hypothesis, suggesting that regulation is mediated via mechanisms that are multifactorial and tissue-specific.
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PMID:Is sorbitol dehydrogenase gene expression affected by streptozotocin-diabetes in the rat? 820 69

The level of expression of the genes for hexokinase, aldose reductase and sorbitol dehydrogenase was investigated in lenses of mice and rats. These genes represent two separate but interrelated pathways for the metabolism of glucose in the cell. It is hypothesized that the extent of expression of the hexokinase gene may play an important role in the regulation of the levels of glucose in the lens. It is known that if there occurs a build up of intracellular glucose, such as in diabetes mellitus, activation of the aldose reductase/sorbitol dehydrogenase pathway may lead to various diabetic complications, including a lessening of lens clarity. We have therefore determined the levels of expression of the genes for these three enzymes in the lens of both mice and rats. Mice are known to be more resistant than rats to the development of lens opacification during hyperglycemia. By Northern blot hybridization analysis, and by quantitation of the resulting hexokinase, aldose reductase and sorbitol dehydrogenase mRNA hybrids, we found that in the mouse lens the expression of the hexokinase gene exceeded that of the aldose reductase gene by a factor of three, while in the rat it only approached about 1/4 that of the aldose reductase gene. The extent of expression of the SDH gene, however, was equal between the mouse and rat lenses. These results were calculated relative to the level of expression of the alpha A-crystallin gene in those two types of lenses, in order to account for the generally higher genetic expression found in the rat relative to the mouse lens due to its higher content of DNA, henceforth larger mass. The presence of high levels of hexokinase mRNAs relative to aldose reductase mRNAs in the lens would be expected to favor metabolism of glucose via the glycolytic pathway rather than the sorbitol pathway, leading to retardation of development of sugar cataracts in the mouse lens; while the opposite is true for the rat lens.
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PMID:Levels of expression of hexokinase, aldose reductase and sorbitol dehydrogenase genes in lens of mouse and rat. 831 91

The effects of feeding a 1% corn oil-9% menhaden oil or beef tallow diet on the early phase of diabetic nephropathy in BHE/cdb rats was studied. The diet groups were subdivided into rats with or without impaired glucose tolerance. Those fed menhaden oil had renal hypertrophy, mild albuminuria, decreased creatinine clearance, increased urea clearance, and more severe lesion scores than rats fed beef tallow. No differences in glomerular filtration rate, Na+, K+-ATPase activity, sorbitol dehydrogenase, or inositol 1, 4, 5-phosphate were observed. Beef tallow-fed rats had higher serum triglyceride levels and renal cholesterol levels. Renal and hepatic fatty acid profiles reflected the fatty acid profile of the dietary fat. These results suggest that beef tallow conferred a protective effect on the renal tissues of these diabetes-prone rats.
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PMID:Early renal disease in BHE/cdb rats is less in rats fed beef tallow than in rats fed menhaden oil. 850 57

The effects of diabetes mellitus on the kinetic constants of aldose reductase and sorbitol dehydrogenase in rat brain were investigated non-invasively in vivo using the 3-fluoro-3-deoxy-D-glucose (3-FDG) 19-fluorine (19F) nuclear magnetic resonance (NMR) method. While forward flux or both aldose reductase and sorbitol dehydrogenase (k1 and k2) were significantly increased, there was no corresponding increase in reverse flux (k3 and k4), and leakage of fructose (k5) was negligible. These findings indicate that the enzymatic kinetics of aldose reductase sorbitol (ARS) in diabetic brain undergo alteration favoring intracellular sorbitol and fructose accumulation, the frequently implicated biochemical basis of diabetic complications.
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PMID:Aldose reductase and sorbitol dehydrogenase activities in diabetic brain: in vivo kinetic studies using 19F 3-FDG NMR in rats. 873 31

This paper examines the question of whether diabetes in humans is associated with changes in aldose reductase and sorbitol dehydrogenase gene expression. The polyol pathway, which comprises the enzymes aldose reductase and sorbitol dehydrogenase, is recognised to play a central role in the pathogenesis of the diabetic complications. Whilst it is known that experimental diabetes in the rat is associated with increased aldose reductase gene expression, possibly as an osmoregulatory response to hyperglycaemia, little is known about aldose reductase and sorbitol dehydrogenase gene expression in diabetes in humans. White cell aldose reductase mRNA levels were increased in patients with insulin-dependent (by 135%, P < 0.05) and non-insulin-dependent (by 132%, P < 0.05) diabetes compared to levels in healthy volunteers. Levels of glycosylated haemoglobin were also increased (P < 0.001) in diabetes but there was no correlation between white cell aldose reductase mRNA and glycosylated haemoglobin levels. In contrast to aldose reductase, levels of white cell sorbitol dehydrogenase mRNA were not affected by diabetes. These results establish for the first time that diabetic patients show increases in white cell aldose reductase mRNA levels, possibly consistent with increased aldose reductase gene expression. This finding may have implications for the use of aldose reductase inhibitors in the treatment of the diabetic complications.
Diabetes Res Clin Pract 1996 Jun
PMID:Increased white cell aldose reductase mRNA levels in diabetic patients. 887 73

Aldose reductase inhibitors (ARIs) attenuate diabetic complications in several tissues, including lens, retina, kidney, blood vessels, striated muscle and peripheral nerve. However, it is unclear whether their action in diabetes mellitus depends directly on inhibiting the conversion of glucose to sorbitol by aldose reductase or indirectly by reducing the sorbitol available for subsequent metabolism to fructose by sorbitol dehydrogenase. To identify the polyol pathway step most relevant to complications, particularly neuropathy, we compared the biochemical effects of a sorbitol dehydrogenase inhibitor, WAY-135706, (250 mg.kg-1.day-1) and an ARI, WAY-121509, (10 mg.kg-1.day-1) on a variety of tissues, and their effects on nerve perfusion and conduction velocity. After 6 weeks of untreated streptozotocin diabetes, rats were treated for 2 weeks. Sorbitol was elevated 2.1-32.6-fold by diabetes in lens, retina, kidney, aorta, diaphragm, erythrocytes and sciatic nerve; this was further increased (1.6-8.2-fold) by WAY-135706 whereas WAY-121509 caused a marked reduction. Fructose 1.6-8.0-fold elevated by diabetes in tissues other than diaphragm, was reduced by WAY-135706 and WAY-121509, except in the kidney. Motor and sensory nerve conduction velocities were decreased by 20.2 and 13.9%, respectively with diabetes. These deficits were corrected by WAY-121509, but WAY-135706 was completely ineffective. A 48.6% diabetes-induced deficit in sciatic nutritive endoneurial blood flow was corrected by WAY-121509, but was unaltered by WAY-135706. Thus, despite profound sorbitol dehydrogenase inhibition, WAY-135706 had no beneficial effect on nerve function. The data demonstrate that aldose reductase activity, the first step in the polyol pathway, makes a markedly greater contribution to the aetiology of diabetic neurovascular and neurological dysfunction than does the second step involving sorbitol dehydrogenase.
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PMID:Comparison of the effects of inhibitors of aldose reductase and sorbitol dehydrogenase on neurovascular function, nerve conduction and tissue polyol pathway metabolites in streptozotocin-diabetic rats. 908 64

The polyol pathway comprises the enzymes aldose reductase and sorbitol dehydrogenase which convert glucose to fructose via sorbitol. Accumulation of sorbitol within the cell has been suggested to contribute to the progression of secondary complications of diabetes. High levels of sorbitol accumulate within the cell due to inadequate regulation of blood glucose levels. It has also been suggested that polymorphism in either the aldose reductase or sorbitol dehydrogenase genes might contribute to sorbitol accumulation. The human sorbitol dehydrogenase gene (SORD) has been described previously and a range of putative polymorphic variants were identified. Further analysis of human SORD yeast artificial chromosome clones has now shown that there is a second SORD-like sequence in man, which is extremely similar in sequence to SORD itself and which also maps to chromosome 15. Detailed sequence analysis suggests that this SORD-related gene cannot be expressed as a full-length sorbitol dehydrogenase isoenzyme. However, knowledge of the presence of this highly similar sequence in the human genome is essential to ensure that sequence variations identified during genetic analysis of SORD are not attributed to polymorphisms within that gene itself.
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PMID:Identification and characterisation of a sequence related to human sorbitol dehydrogenase. 918 16

Curcumin, the coloring principle of the commonly used spice turmeric (Curcuma longa) was fed at 0.5% in the diet to streptozotocin-induced diabetic Wistar rats for 8 weeks. Renal damage was assessed by the amount of proteins excreted in the urine and the extent of leaching of renal tubular enzymes: NAG, LDH, AsAT, AlAT, alkaline and acid phosphatases. The integrity of kidney was assessed by measuring the activities of several key enzymes of the renal tissue: glucose-6-phosphate dehydrogenase, glucose-6-phosphatase, and LDH (Carbohydrate metabolism), aldose reductase and sorbitol dehydrogenase (polyol pathway), transaminases, ATPases and membrane PUFA/SFA ratio (membrane integrity). Data on enzymuria, albuminuria, activity of kidney ATPases and fatty acid composition of renal membranes in diabetic condition suggested that dietary curcumin brought about significant beneficial modulation of the progression of renal lesions in diabetes. These findings were also corroborated by histological examination of kidney sections. It is inferred that this beneficial ameliorating influence of dietary curcumin on diabetic nephropathy is possibly mediated through its ability to lower blood cholesterol levels.
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PMID:Amelioration of renal lesions associated with diabetes by dietary curcumin in streptozotocin diabetic rats. 956 45

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