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: DrugBank:APRD00345 (ICI)
5,388 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lucigenin-enhanced chemiluminescence was examined as an index of neutrophil superoxide production in four groups of 20 subjects: controls with/without infection and type 1 diabetics with/without infection. At 5 mM glucose there was no significant difference in chemiluminescence output between neutrophils from the four groups (P greater than 0.01). Increasing the in vitro glucose concentration from 5 to 20 mM produced an 8.75% reduction in superoxide in the combined control groups, compared with a 21.45% reduction in the diabetic subjects (P less than 0.01). With the addition of an aldose reductase inhibitor (Statil, ICI) to neutrophils from diabetic subjects, the suppression caused by an increase in glucose concentration to 20 mM was reduced to 4.5%. This value was similar to the controls (P greater than 0.01). Neutrophil aldose reductase activity, measured in 28 diabetic subjects was 0.024 +/- 0.003 U/10(8) cells (mean +/- SE). There was a significant correlation between aldose reductase activity and superoxide suppression (P less than 0.01, r = 0.64). These results suggest that aldose reductase is responsible for reduced superoxide production in diabetic patients and the addition of an aldose reductase inhibitor to the diabetic neutrophil restores superoxide output to control values.
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PMID:The influence of aldose reductase on the oxidative burst in diabetic neutrophils. 131 60

The effect of high concentrations of glucose on Na, K-ATPase activity and the polyol pathway was studied using cultured bovine aortic endothelial cells. Na, K-ATPase activity was expressed as ouabain-sensitive K+ uptake. A significant decrease in Na, K-ATPase activity with an intracellular accumulation of sorbitol was found in confluent endothelial cells incubated with 400 mg/dl glucose for 96 h. However, there was no significant change in the Na, K-ATPase activity or sorbitol content of the cells incubated with 100 mg/dl glucose plus 300 mg/dl mannitol. The decrease in Na, K-ATPase induced by the high glucose concentration was restored by the simultaneous addition of 10(-4) M ponalrestat (ICI 128,436; Statil), an aldose reductase inhibitor. The addition of this agent also significantly reduced the increase in sorbitol induced by high glucose levels. These results suggest that the decrease in Na, K-ATPase activity induced in cultured aortic endothelial cells by high concentrations of glucose may be caused in part by the accumulation of sorbitol.
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PMID:Effect of glucose on Na, K-ATPase activity in cultured bovine aortic endothelial cells. 131 29

Although the enhanced activity of the polyol pathway has been detected in diabetic glomeruli, the intraglomerular localization of this pathway has not yet been well defined. In this study, we attempted to identify aldose reductase, a key enzyme of the polyol pathway, in cultured rat mesangial cells and to characterize the properties of this enzyme using enzymological and immunological methods. When the aldose reductase (DL-glyceraldehyde-reducing) activity was analyzed in mesangial cell extract, the Lineweaver-Burk plot showed concave downward curvature, and the Michaelis constant was 0.83 mM DL-glyceraldehyde, and this activity was noncompetitively inhibited by an aldose reductase inhibitor, ICI-128,436. The enzyme activity was enhanced by the addition of sulfate ion and partially suppressed by barbital. The enzyme cross-reacted with the antisera against rat lens and testis aldose reductases on Ouchterlony plate, and migrated to the region of molecular weight of about 36,500 Da on Western blotting. The presence of aldose reductase mRNA was also confirmed by Northern analysis using cDNA for rat aldose reductase, 10Q. From these results, it was concluded that the aldose reductase may exist in rat glomerular mesangial cells and may play a role in the development of diabetic glomerulopathy, though the coexistence of aldehyde reductase(s) may not be fully ruled out.
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PMID:Identification and characterization of aldose reductase in cultured rat mesangial cells. 149 67

Increased flux through the polyol pathway mediated by the enzyme aldose reductase may be associated with the development of diabetic neuropathy. Fifty-four diabetic patients (median age 56 yr, range 25-65 yr) with chronic neuropathic symptoms were randomly allocated to placebo or aldose reductase inhibition (300 or 600 mg ponalrestat ICI 128436) groups for 24 wk. Patients with vibration perception thresholds (VPTs) greater than 35 V at the great toe or thermal difference thresholds (TTs) greater than 10 degrees C on the dorsum of the foot were excluded from the trial. No significant changes were observed in symptoms of pain, numbness, or paresthesia between ponalrestat and placebo groups, and there were no improvements in VPT or TT at several sites. Posterior tibial nerve conduction velocity changed from 35.3 +/- 4.9 m/s at baseline to 33.4 +/- 4.0 m/s at 24 wk (NS) with placebo compared with 37.6 +/- 5.6 vs. 37.2 +/- 8.7 m/s (NS) with 300 mg ponalrestat and 34.5 +/- 6.1 vs. 36.2 +/- 6.8 m/s (NS) with 600 mg ponalrestat. Further studies are indicated with intervention at an earlier stage in the evolution of neuropathy and for longer periods.
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PMID:Clinical and neurophysiological studies of aldose reductase inhibitor ponalrestat in chronic symptomatic diabetic peripheral neuropathy. 190 8

A variety of 2,4-dioxoquinazolineacetic acids (10, 11) were synthesized as hybrids of the known aldose reductase inhibitors alrestatin (8), ICI-105,552 (9), and ICI-128,436 (2) and evaluated for their ability to inhibit partially purified bovine lens aldose reductase (in vitro) and their effectiveness to decrease galactitol accumulation in the 4-day galactosemic rat model (in vivo). In support to SAR studies, related analogues pyrimidinediones (12), dihydroquinazolones (13), and indazolidinones (14,15) were synthesized and tested in the in vitro and in vivo assays. All prepared compounds (10-15) have shown a high level of in vitro activity (IC50 approximately 10(-6) to 4 x 10(-8) M). However, only the 2,4-quinazolinedione analogues 10 and 11, with similar N-aralkyl substitution found in 2 and 9, have exhibited good oral potency. The remaining compounds were either inactive or had only a marginal in vivo activity. The structure-activity data support the presence of a secondary hydrophobic pocket in the vicinity of the primary lipophilic region of the enzyme.
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PMID:Quinazolineacetic acids and related analogues as aldose reductase inhibitors. 190 12

This study examines whether an aldose reductase inhibitor (statil, ICI) can enhance neutrophil oxidative killing by diabetic neutrophils. We have examined a radiometric assay of phagocytosis and killing of Candida albicans by neutrophils from 20 controls and 20 subjects with insulin-dependent diabetes under various in vitro glucose concentrations. Glucose was present at 5, 10 and 20 mM in the presence and absence of statil (11 microM). Phagocytosis was unaffected by raised glucose levels in controls and in diabetic subjects. Killing by the diabetic cells was inhibited by increasing concentrations of glucose, killing was 18.9 +/- 2.0, 16.9 +/- 2.4 and 14.8 +/- 2.0% (mean +/- s.e.m.) at 5, 10 and 20 mM glucose, respectively (P less than 0.05). With the addition of statil under the same conditions killing improved to 19.3 +/- 2.0, 23.2 +/- 2.2 and 23.6 +/- 2.4 (P less than 0.01), these values were similar to the controls (P greater than 0.01). We conclude therefore that aldose reductase inhibition restores oxidative killing to normal.
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PMID:The role of aldose reductase inhibition in diabetic neutrophil phagocytosis and killing. 190 27

Ponalrestat (Statil, ICI; Prodiax, Merck Sharp and Dohme) is an aldose reductase inhibitor which is highly protein bound. Ponalrestat markedly displaced warfarin from its protein binding in vitro at a concentration of 500 micrograms ml-1, but not at a concentration of 50 or 100 micrograms ml-1. Twelve diabetic patients (six males), age range 38-65 years, in receipt of chronic stable warfarin therapy, were given ponalrestat (600 mg daily) for 2 weeks in an open trial. A matching placebo tablet was administered for 1 week before and after the active treatment period. Patients were seen ten times (four times during the ponalrestat phase), and during the ponalrestat phase, plasma samples were also taken before and at 3 h after the daily dose of ponalrestat. At none of the visits was there any significant change in prothrombin ratio (INR), plasma total or unbound warfarin concentrations, or percentage protein binding of warfarin. No clinical complications of combination treatment were detected. The maximum ponalrestat concentration observed in the patients was approximately 100 micrograms ml-1. We conclude that no significant interaction between these drugs occurs at the doses of ponalrestat studied.
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PMID:Ponalrestat does not cause a protein binding interaction with warfarin in diabetic patients. 190 41

Many of the complications of diabetes seem to be due to aldose reductase (aldehyde reductase 2, ALR2) catalysing the increased conversion of glucose to sorbitol. Therapy with aldose reductase inhibitors (ARIs) could, therefore, decrease the development of diabetic complications. (2,6-Dimethylphenylsulphonyl)nitromethane (ICI 215918) is an example from a newly discovered class of ARIs, and we here describe its kinetic properties. Preparations of bovine lens ALR2 exhibit biphasic kinetics with respect to glucose and various inhibitors including ICI 215918. The inhibitor sensitive form (ALR2S) has a higher affinity for glucose than does the inhibitor insensitive form (ALR2I). Only ALR2S was characterized in detail because ALR2I activity is very low at physiological levels of glucose and is difficult to measure with accuracy. Aldehyde reductase (ALR1) is the most closely related enzyme to ALR2. Inhibition of ALR1 was, therefore, investigated in order to assess the specificity of ICI 215918. The values of Ki and Kies (dissociation constants for inhibitor from enzyme-inhibitor and enzyme-inhibitor-substrate complexes, respectively) for ICI 215918 with bovine kidney ALR1 and bovine lens ALR2S have been determined. When glucose is varied, the compound is an uncompetitive inhibitor of ALR2S (Kies = 0.10 microM and Ki is much greater than Kies), indicating that ICI 215918 associates with an allosteric site on the enzyme. These kinetic characteristics would cause a decrease in the concentration required to give 50% inhibition when glucose levels rise during hyperglycaemia. ICI 215918 is a mixed noncompetitive inhibitor of ALR1 (Ki = 10 microM and Kies = 1.8 microM) when glucuronate is varied. Thus, the compound has up to 100-fold specificity in favour of ALR2S relative to ALR1. Therapeutic interest has now centred upon at least three distinct structural types of ARIs: spirohydantoins, acetic acids and sulphonylnitromethanes. Using one representative of each type, we have demonstrated kinetic competition for inhibition of ALR2S. This observation strongly suggests that the different inhibitors use overlapping binding sites.
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PMID:(2,6-Dimethylphenylsulphonyl)nitromethane: a new structural type of aldose reductase inhibitor which follows biphasic kinetics and uses an allosteric binding site. 195 30

Many of the complications of diabetes appear to be closely linked to increased conversion of tissue glucose to sorbitol which is catalysed by aldose reductase (aldehyde reductase 2, ALR2). Inhibition of ALR2 could, therefore, lead to a reduction in the development of diabetic complications. Ponalrestat ["Statil" (a trademark, the property of Imperical Chemical Industries PLC), "Prodiax" (a trademark, the property of Merck, Sharp and Dohme), ICI 128436, MK538] inhibits ALR2 from a number of sources. Until now, the mechanism of this inhibition has not been fully elucidated. In this paper, we present a detailed mechanism for inhibition of bovine lens ALR2 by ponalrestat. Treatment of humans with some ALR2 inhibitors leads to side-effects, some of which may result from interactions with other enzymes. Aldehyde reductase (ALR1) is probably the most closely related enzyme to ALR2. Inhibition of ALR1 from bovine kidney was, therefore, investigated in order to assess the specificity of ponalrestat. The values of Ki and Kies (apparent dissociation constants for inhibitor from enzyme-inhibitor and enzyme-inhibitor-substrate complexes, respectively) for the interactions of ponalrestat with ALR1 and ALR2 has been calculated by non-linear fitting of kinetic data. These values indicate that ponalrestat does not compete with binding of glucose of NADPH to ALR2, nor with binding of glucuronate or NADPH to ALR1. Lack of competition and the structural dissimilarity of substrates and inhibitor make it unlikely that ponalrestat will utilize substrate binding sites on other enzymes, and so produce undesirable side-effects via such a mechanism. Ponalrestat is a potent inhibitor (Ki = Kies = 7.7 nM) of ALR2 and follows a pure noncompetitive mechanism with respect to glucose. Efficacy, therefore, will not be decreased by development of hyperglycaemia. The compound is a mixed noncompetitive inhibitor of ALR1 when glucuronate is varied. The values of Ki and Kies are 60 microM and 3 microM, respectively, so that inhibition tends towards uncompetitive. The selectivity of ponalrestat in favour of ALR2, therefore, lies in the range 390 to 7,800-fold, being higher at lower concentrations of glucuronate. The high selectivity of ponalrestat in favour of ALR2 rather than ALR1 suggests that the compound is unlikely to inhibit other enzymes which have less homology with ALR2.
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PMID:Ponalrestat: a potent and specific inhibitor of aldose reductase. 210 33

Kinetic patterns of inhibition of homogenous human kidney aldose reductase (AR, EC 1.1.1.21) and aldehyde reductase II (AR II, EC 1.1.1.19) by statil, ICI 105552 [1-(3,4-dichlorobenzyl)-3-methyl-1,2-dihydro-2-oxoquinol-4-yl acetic acid], tolrestat, alrestatin, chromone carboxylic acid (CCA), quercetin, phenobarbital and sorbinil were studied. On the basis of the kinetic nature of inhibition, the inhibitors were classified into four distinct categories. For aldose reductase, sorbinil and phenobarbital were noncompetitive (NC; category I) and CCA and alrestatin were uncompetitive (UC; category II) to both the aldehyde substrate and NADPH. Quercetin and ICI 105552 were NC to the aldehyde and UC to NADPH (category III) and tolrestat and statil were UC to the aldehyde and NC to NADPH (category IV). For AR II, sorbinil and alrestatin were category I inhibitors, ICI 105552 and statil belong to category II, phenobarbital, tolrestat and CCA to category III, and quercetin to category IV. To determine the specificity of inhibition, the ratios of the inhibition constants (Kii) for AR and AR II were calculated. A lower ratio indicates greater specificity. With aldehyde as the varied substrate the specificity ratios were: statil less than ICI 105552 less than alrestatin less than tolrestat less than quercetin less than CCA less than sorbinil less than phenobarbital, and with NADPH as the varied substrate, ICI 105552 less than statil less than alrestatin less than tolrestat less than quercetin less than CCA less than sorbinil less than phenobarbital. For AR, double-inhibition plots generated for one inhibitor from each kinetic category versus sorbinil showed that AR inhibitors of categories I-III bind to the same site on the protein molecule as sorbinil. However, tolrestat seemed to bind to a site different from the sorbinil binding site. For AR II, inhibitors from all the four categories appeared to bind to the same inhibitor binding site.
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PMID:Inhibition kinetics of human kidney aldose and aldehyde reductases by aldose reductase inhibitors. 215 39


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