Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0086543 (cataract)
 29,165 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Naphthalene-induced cataract in rat lenses can be completely prevented by AL01576, an aldose reductase inhibitor (ARI). In an attempt to understand the mechanism of this inhibition, several ARIs were examined to compare their efficacies in preventing naphthalene cataract, using both in vitro and in vivo models. Two classes of ARIs were tested: One group including AL01576, AL04114 (a AL01576 analog) and Sorbinil contained the spirohydantoin group, while Tolrestat contained a carboxylic acid group. Furthermore, to clarify if aldose reductase played a role in naphthalene-induced cataractogenesis in addition to its role in sugar cataract formation, a new dual cataract model was established for ARI evaluations. This was achieved by feeding rats simultaneously with high galactose and naphthalene or incubating rat lenses in culture media containing high galactose and naphthalene dihydrodiol. Under these conditions, both cortical cataract and perinuclear cataract developed in the same lens. It was found that at the same dosage of 10 mg/kg/day, both AL01576 and AL04114 completely prevented all morphological and biochemical changes in the lenses of naphthalene-fed rats. Sorbinil was less efficacious, while Tolrestat was inactive. AL01576 showed a dose-response effect in preventing naphthalene cataract and at 10 mg/kg/day, it was also effective as an intervention agent after cataractogenesis had begun. With the dual cataract model, Tolrestat prevented the high galactose-induced cortical cataract but showed no protection against the naphthalene-induced perinuclear cataract. AL01576, on the other hand, prevented both cataract formations. Results for dulcitol and glutathione levels were in good agreement with the morphological findings. AL04114, and ARI as potent as AL01576 but without its property for cytochrome P-450 inhibition, displayed similar efficacy in preventing naphthalene cataract. Based on these results, it was concluded that the prevention of the naphthalene cataract probably results from inhibition of the conversion of naphthalene dihydrodiol to 1,2-dihydroxynaphthalene and that the effect of the ARIs cannot be explained by their inhibition of the dihydrodiol dehydrogenase activity of aldose reductase.
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PMID:Inhibition of naphthalene cataract in rats by aldose reductase inhibitors. 867 Jul 42

Aldose reductase inhibition is one of the therapeutic strategies that has been proposed to prevent or ameliorate long term diabetic complications including retinopathy and sugar cataract. Rats were fed with a galactose rich diet and the aldose reductase inhibitor Tolrestat was topically delivered by ocular instillation. The levels of lens aldose reductase activity, galactitol and the onset of cataract were evaluated during and after treatment with the inhibitor. Topical application of 1-3% Tolrestat (10 microl) four times daily resulted, after 9 days, in a significant decrease in the enzyme activity. Well after interrupting treatment with the drug, the enzyme activity remained impaired and galactose induced cataract was prevented. Our findings may represent the basis for therapeutic plans to prevent sugar cataract by long term cyclic treatments with aldose reductase inhibitors, with reduction in drug doses and side effects.
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PMID:A new approach against sugar cataract through aldose reductase inhibitors. 1054 73

Diabetes mellitus occurrence has been associated to the modification of the physiological levels of glucose and is often accompanied by several long-term complications, namely neuropathy, nephropathy, retinopathy, cataract, and cardiovascular. Aldose reductase (AR) is an enzyme of aldoketo reductase super-family that catalyzes the conversion of glucose to sorbitol in the polyol pathway of glucose metabolism. In this context, aldose reductase inhibitors (ARIs) have received much attention worldwide. Decreased sorbitol flux through polyol pathway by ARIs could be an emerging target for the management of major complications of diabetes. The present review article describes a brief overview of the role of aldose reductase in the diabetic complications, advances achieved on ARIs and their potential use in the treatment and management of the major diabetic complications such as cataract, retinopathy, neuropathy, nephropathy and cardiovascular. The ARIs developed vary structurally, and representative structural classes of ARIs include i) carboxylic acid derivatives (such as Epalrestat, Alrestatin, Zopalrestat, Zenarestat, Ponalrestat, Lidorestat, and Tolrestat), ii) spirohydantoins and related cyclic amides (such as Sorbinil, Minalrestat, and Fidarestat), and iii) phenolic derivatives (related to Benzopyran-4-one and Chalcone). Among these inhibitors, Epalrestat is the only commercially available inhibitor till date. In addition, some other ARIs such as Sorbinil and Ranirestat had been advanced into late stage of clinical trials and found to be safe for human use. The role of various natural ARIs in management of diabetic complications will be discussed. Adapting ARIs could prevent sepsis complications, prevent angiogenesis, ameliorate mild or asymptomatic diabetic cardiovascular autonomic neuropathy and appear to be a promising strategy for the treatment of endotoxemia and other ROS-induced inflammatory diseases. The role of ARIs in non-diabetic diseases will also be discussed.
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PMID:Updates on Aldose Reductase Inhibitors for Management of Diabetic Complications and Non-diabetic Diseases. 2634 93