UMLS:C0086543 - FACTA Search

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Query: UMLS:C0086543 (cataract)
29,165 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The ability of 2,6-dimethoxyquinone (DMQ) to impair 86Rb uptake by bovine lens epithelial cells was found to be independent of exogenous ascorbate in contrast to the impairment induced by Fe/Cu or riboflavin plus light. The cytotoxicity was associated with an electron spin resonance (ESR) detectable singlet radical (g = 2.0062) which also formed on incubation of DMQ with glutathione (GSH) or gamma-crystallin in vitro. Formation of the stable free radical appeared to require conjugation of DMQ by peptidyl thiol and required transition metal catalysis. A structure for the DMQ-glutathione free radical conjugate is proposed. Redox activity of quinone conjugates is suggested to be of relevance to an oxidative damage hypothesis of cataract.
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PMID:Pro-oxidant activation of ocular reductants. 2. Lens epithelial cell cytotoxicity of a dietary quinone is associated with a stable free radical formed with glutathione in vitro. 282 94

Selenium toxicity was investigated in cultured rabbit lenses to provide further information about the role of Ca++ in Se cataract. At a dose of 0.1 mM for 20 hr, Se induces a 10% change in Na levels within 6 hr, a 30% increase after 20 hr, and a three-fold increase within 48 hr of subsequent culture after removal of Se. In contrast, Ca++ levels remained normal throughout the first 24 hr. Only a small, 25% decline in GSH was noted. Not until lenses begin to swell and become noticeably opaque and turbid were Ca++ levels found to be elevated. Thus, at 72 hr, 48 hr following the removal of selenium, Ca++ had increased to a concentration of 0.7 mM. Ca++ accumulation appears to be a consequence of osmotic stress rather than pump inhibition while Na accumulation is a direct consequence of Se-inhibited Na pump.
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PMID:Effects of selenium on ion homeostasis and transparency in cultured lenses. 291 10

This study focused on whether changes in lens levels of glutathione and calcium, early events associated with cataract formation, were related or that one might cause the other. The first part of the investigation was concerned with the extent to which an increase in levels of intracellular calcium might alter GSH levels in lens fiber and epithelial cells. The results demonstrate that calcium accumulation, either at 19 degrees C or 37 degrees C, did not diminish the concentration of GSH. More importantly, GSH levels did not decline in opaque regions of a calcium-loaded lens. The reciprocal part of the problem focused on whether a decline in lens thiol might lead to an increase in levels of calcium and subsequent opacification. In particular, it was shown that treatment of lenses with parachloromercuribenzene sulphonic acid (PCMBS), a nonpenetrating sulphydryl probe, resulted in a 10-30% loss of membrane SH groups in the epithelium. Diminished numbers of SH groups was accompanied by chloride fluxes and an increase in membrane permeability to sodium and calcium with an influx of sodium and calcium leading to opacities. It is important to note that these changes occurred in the absence of any change in cellular levels of soluble protein-SH or GSH. Additional experiments suggest that calcium transport was not impaired, as evidenced by lack of inhibition of Ca-ATPase activity in lenses treated with PCMBS. The results suggest that one explanation for opacification is that oxidative insults, which diminish GSH levels, leads to a loss of important membrane SH groups.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The importance of membrane sulfhydryl groups to calcium homeostasis in the lens. 299 53

The response of the poikilothermal lens to various incubation temperatures in vitro was compared with that of the homothermal lens. The rainbow trout lens was used as the poikilothermal lens and the rat lens as the homothermal lens. In contrast to rat lenses, cataract developed at 37 degrees C in rainbow trout lenses, which was called 'warm cataract'. Warm cataract developed not only when lenses were incubated in vitro but also when rainbow trout were kept in water at 37 degrees C. Water, Na+, Ca2+ and insoluble protein increased and K+ and Mg2+ decreased in warm cataract lenses, but GSH and soluble protein sulfhydryl levels did not change. This cataract was irreversible after only 5 min incubation at 37 degrees C. On the other hand, rainbow trout lenses remained transparent without the change of cation balance at 0-25 degrees C while cold cataract developed in rat lenses. Na,K-ATPase activity was detected at 0 degrees C in rainbow trout lens homogenates, but not in rat lens homogenates. Na+-K+ ratio (Na+/K+) increased when the rainbow trout lens was treated with ouabain at 0 degrees C. In the rainbow trout lens, lactic acid was produced continuously for 30 days at 0 degrees C while it was not in the rat lens between 1 hr and 10 days after. These results strongly suggest that Na,K-ATPase acts as a cation pump at 0 degrees C and that ATP is supplied by glycolysis in the rainbow trout lens in order to maintain the transparency. The above results also suggest that enzymes and membrane structures in rainbow trout lens are adapted to a cold-temperature habitat and that Na,K-ATPase and anaerobic glycolysis are important for the maintenance of lens transparency at low temperatures.
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PMID:Studies on the eye lens in poikilothermal animals. I. Comparative studies on cation maintenance systems in rainbow trout and rat lenses. 299 50

The role of reduced glutathione (GSH) in lens membrane function was studied by depleting GSH with 1-chloro-2,4-dinitrobenzene (CDNB), a reaction catalyzed by GSH-S-transferase. Depletion of GSH in the lens epithelium by 70-90% led to a decrease in uptake and increase in efflux of 86Rb. ATP levels and Na+/K+-ATPase activity were normal while there was a slight decrease in lactate production. The results provide the first direct evidence that depletion of endogenous GSH per se does not lead to inactivation of Na+/K+-ATPase. However, lenses deficient in GSH when challenged with a normally tolerated level of H2O2 showed significant inactivation of membrane ATPase without a further increase in membrane permeability. Pretreatment with CDNB resulted in a 3-fold stimulation of the hexose monophosphate shunt activity which is attributed to the unexpected finding of a significant increase in the level of oxidized glutathione in the lens. It is concluded that deficiency of GSH causes a marked increase in membrane permeability and such lenses are susceptible to oxidative damage resulting in inactivation of the Na+/K+ pump, thus leading to ionic changes and cataract development.
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PMID:Effect of glutathione depletion on cation transport and metabolism in the rabbit lens. 318 92

In this study we have investigated the oxidative metabolism of red blood cells (RBC), plasma, serum, aqueous humor, and lens of healthy subjects and of age-matched cataractous patients with and without diabetes. Reduced and oxidized glutathione (GSH GSSG) levels in RBC were similar among the three groups. Plasma levels of GSSG were higher in diabetics than in cataractous and control subjects. No differences in plasma content of GSH were noted among the three groups. The activity of the enzyme glucose-6-phosphate dehydrogenase was significantly diminished in diabetic patients. Controls and cataractous patients showed similar levels of malondialdehyde (MDA). Although not significant the MDA content in RBC from diabetics was elevated. No differences in plasma levels of vitamin E were noted among the three groups. The biological liquid oxidant activity of serum in diabetic patients was significantly higher than in controls and cataractous patients. GSH levels in aqueous humor were similar in diabetic and nondiabetic cataractous patients. The content of GSSG in aqueous humor was highest in diabetic patients. Control clear lenses showed low levels of MDA. The MDA levels in cataractous lenses from nondiabetic patients were significantly higher than those of controls. In diabetic patients the content of MDA in the lens was approximately twice as high as the cataractous values. Our results seem to demonstrate that oxidative damage could play a role in the pathogenesis of cataract in diabetes.
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PMID:Systemic human diseases as oxidative risk factors in cataractogenesis. I. Diabetes. 318 3

Acetaminophen has been shown to be cataractogenic in mice and rabbits. C57BL/6 and DBA/2 mice respectively are genetically susceptible and resistant to the induction of cytochrome P-448 by 3-methylcholanthrene (3-MC). This isoenzyme is thought to bioactivate acetaminophen to a toxic reactive intermediate. These two murine strains also are correspondingly susceptible and resistant to acetaminophen cataractogenesis. To evaluate the potential role of enzymatic bioactivation as a determinant of acetaminophen cataractogenesis, C57BL/6 and DBA/2 mice were treated with acetaminophen, 300 or 400 mg/kg intraperitoneally (ip), with or without pretreatment 48 hr earlier using 3-MC, 200 mg/kg ip. Lenticular cataracts were evaluated using the unaided eye and a slit lamp, and hepatotoxicity was evaluated by determination of peak plasma concentration of alanine aminotransferase (ALT). Plasma concentrations of acetaminophen and metabolites, particularly the glutathione (GSH)-derived conjugates (cysteine and mercapturic acid) reflecting enzymatic bioactivation, were measured by high-performance liquid chromatography. Cataracts developed only in C57BL/6 mice pretreated with 3-MC, occurring in 1 of 5 and 5 of 5 animals treated respectively with 300 and 400 mg/kg of acetaminophen. Comparing these two groups of induced C57BL/6 mice, production of the cysteine conjugate of acetaminophen was 2.5-fold higher with the 400 mg/kg dose of acetaminophen (p less than 0.05). Compared to their respective dose-matched, noninduced controls, cysteine conjugate production in the 300 and 400 mg/kg dose groups of induced C57BL/6 mice respectively was 3-fold and 4-fold higher (p less than 0.05). No DBA/2 mice developed cataracts. No mercapturic acid conjugate was detectable in the plasma of DBA/2 mice, and production of the cysteine conjugate was not altered in this strain by increasing the dose of acetaminophen or by pretreatment with 3-MC. The mean peak plasma concentration of the cysteine conjugate, reflecting acetaminophen bioactivation, was 5-fold higher in animals developing cataracts compared with those without cataracts (p less than 0.001). Plasma concentrations of unmetabolized acetaminophen were similar in all groups and unrelated to the development of cataracts. All mice of both strains pretreated with 3-MC showed evidence of hepatotoxicity, indicating a dissociation between hepatotoxic and cataractogenic susceptibility.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Metabolic evidence for the involvement of enzymatic bioactivation in the cataractogenicity of acetaminophen in genetically susceptible (C57BL/6) and resistant (DBA/2) murine strains. 340 97

Previous studies have indicated that in vivo exposure to hyperbaric O2 may be associated with the development of nuclear cataract. In the present work, in vitro effects of hyperbaric O2 on rabbit lenses were investigated following culture of the lenses in an atmosphere of 99% O2 at pressures ranging between 1 and 100 atm. Treatment with O2 resulted in a significant decrease in the level of reduced glutathione (GSH) in the lenses even at the lower pressures studied (less than 8 atm). At 100 atm O2 the loss of GSH was 85% after a 3 hr exposure. At 8 atm O2 a significant drop in GSH concentration was shown to occur in the lens nucleus prior to loss of the tripeptide in the superficial cortex. O2-treated lenses became hazy in appearance, especially at the higher pressures, but did not become densely opaque. Pressures of N2 up to 100 atm had no effect on either lens transparency or on the concentration of GSH. Although oxidized glutathione (GSSG) was detected in the whole lens at pressures of O2 as low as 4 atm, no change in GSH level or evidence for GSSG accumulation was observed in the capsule-epithelium of the lens at pressures as high as 50 atm O2. Ninety percent of the GSSG present in lenses after exposure to 100 atm O2 could be reconverted to GSH by subsequent culture of the lenses under normal conditions. Exposure of lenses to 50 atm O2 produced a three-fold stimulation of hexose monophosphate shunt activity, equal to that which has been reported for treatment of lenses with 0.06 mM H2O2.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Exposure of rabbit lens to hyperbaric oxygen in vitro: regional effects on GSH level. 341 15

The effect of (1-benzoyl-1H-indazol-3-yl)oxylacetate L-Lysine (bendazac-lysine) on some enzymatic activities involved in the metabolism of reduced glutathione (GSH) was studied in the rabbit lens during developing cataract induced by a single dose of X-rays (2000 rads). The specific activities of glutathione reductase (G.R.), glutathione peroxidase (GSH.Px) and glutathione S-transferase (GSHS-tr.) do not change following irradiation and treatment with bendazac-lysine. The activity of the same enzymes expressed as a function of water soluble proteins (WSP) per lens significantly decreases (P less than 0.01) as compared to controls in the irradiated lens not treated with bendazac-lysine (ILNTB) at the 8th week, whereas no significant decrease as compared to controls is observed in the irradiated lens treated with bendazac-lysine (ILTB). In the ILNTB the specific activity of glucose-6-phosphate dehydrogenase (G6PDH) is reduced by 10% after 0.3 weeks and by 29% after 12 weeks. In the ILTB the specific activity of G6PDH is reduced by 8% after 0.3 weeks and by 14.5% after 12 weeks. The specific activity of superoxide dismutase (SOD) in the ILNTB is reduced by 19% after 0.3 weeks and reached 31% after 12 weeks. In the ILTB the specific activity of SOD is reduced by 11% after 0.3 weeks and 19.8% after 12 weeks. The mechanism of protective effect of bendazac-lysine on cataract is discussed.
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PMID:Effects of bendazac L-lysine salt on some metabolic enzymes of glutathione in the rabbit lens after X-irradiation. 361 May 98

It was shown that human lens opacity was accompanied by the decrease in the lens ability to cleave H2O2 (10(-4) M), added to the lens-surrounding medium. The rate of peroxide decomposition at the stage of mature cataract in isolated human lenses was 3.5 times lower than that of the control human lenses (transparent lens, initial cataract). Specific catalase inhibitor--3-amino,IH-1,2,4-triazole showed no significant influence on the rate of H2O2 cleavage. Reduced glutathione (10 microM) added to the lens incubation medium induced a sharp increase in the rate of H2O2 detoxication. The results indicate that reduced glutathione metabolism is of primary importance in the maintenance of anti-peroxide activity in the lens.
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PMID:[Decomposition of H2O2 by human cataractous lenses]. 374 26

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