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

Studies have been conducted to assess the possible preventive effect of pyruvate against lens protein oxidation and consequent denaturation and insolubilization. Rat lens organ culture system was used for these studies. The content of water insoluble proteins (urea soluble) increased if the lenses were cultured in medium containing hydrogen peroxide. Incorporation of pyruvate in the medium prevented such insolubilization. The insolubilization was associated primarily with loss of gamma crystallin fraction of the soluble proteins. PAGE analysis demonstrated that insolubilization is related to -S-S- bond formation which was preventable by pyruvate. Since pyruvate is a normal tissue metabolite the findings are considered pathophysiologically significant against cataract formation. This was apparent by the prevention of selenite cataract in vivo by intraperitoneal administration of pyruvate.
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PMID:Prevention of oxidative damage to rat lens by pyruvate in vitro: possible attenuation in vivo. 852 99

It has been reported that hydrogen peroxide is present in the aqueous humor and its level is increased in cataract patients. To determine the effect of hydrogen peroxide on the lens, hydrogen peroxide-treated lenses were monitored by Raman spectroscopic methods before and after treatment. The lenses were also examined histologically. Excised rat lenses were incubated in the medium containing 100 mM of hydrogen peroxide for one hour. Slight lens opacification was observed 3 hours after completion of treatment and there was marked opacification by 5 hours. Analysis of the Raman spectra from the lens cortex indicated that sulfhydryl groups were decreased and disulfide bonds were increased, which suggested that exposure to hydrogen peroxide resulted in 2SH --> SS conversion in the lenses. A decrease in sulfhydryl groups was observed at one hour after completion of treatment and its level was decreased to 60% of the control level by 4 hours after treatment. Since the decrease in sulfhydryl groups was observed prior to lens opacification, the results indicated that 2SH --> SS conversion may be related to the formation of lens opacification.
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PMID:Alteration of lens sulfhydryl groups induced by oxidative stress: Raman spectroscopic study of hydrogen peroxide-treated rat lens. 853 68

A hypothesis is proposed that aging processes in the eye occur as a consequence of degradation of enzymes that normally metabolize and detoxify hydrogen peroxide and other free radicals. The loss of enzyme activity allows hydrogen peroxide, which normally occurs within eye fluids, and free radicals to induce irreversible deleterious effects on different eye tissues. These processes may lead to cataract formation in the lens, loss of corneal endothelial cells, modification of the glycosaminoglycan secretory patterns of the cells of the trabecular meshwork, and other changes associated with ocular aging. These processes may be exacerbated during inflammation when oxidation products increase. Considerable circumstantial evidence points towards hydrogen peroxide as one of the major chemicals involved in the induction of these changes. Much remains to be determined to definitively identify this chemical or free radicals as the primary inducers of tissue alterations that occur in aging eyes.
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PMID:Free radicals and aging of anterior segment tissues of the eye: a hypothesis. 857 53

A link between corticosteroid therapy and the development of cataract has been known for many years. However, the precise underlying molecular mechanism of pathology has not been characterised, although a role for direct deleterious interactions between corticosteroids and lenticular proteins has been investigated. Alpha-crystallin is a major lens protein that has exhibited chaperone properties in vitro. Catalase is a ubiquitous enzyme that is an important scavenger of hydrogen peroxide in vivo. The corticosteroid prednisolone-21-hemisuccinate was found to inactivate bovine liver catalase, in vitro in a progressive manner. Coincubation of alpha-crystallin with catalase in a 1:2 molar ratio (one alpha-crystallin to two catalase molecules) fully protected against this inactivation. The protection was specific. Aspirin-like analgesics, putative anti-cataract drugs offered no such protection.
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PMID:Alpha-crystallin acting as a molecular chaperone protects catalase against steroid-induced inactivation. 860 85

The paradox of aerobic life, or the 'Oxygen Paradox', is that higher eukaryotic aerobic organisms cannot exist without oxygen, yet oxygen is inherently dangerous to their existence. This 'dark side' of oxygen relates directly to the fact that each oxygen atom has one unpaired electron in its outer valence shell, and molecular oxygen has two unpaired electrons. Thus atomic oxygen is a free radical and molecular oxygen is a (free) bi-radical. Concerted tetravalent reduction of oxygen by the mitochondrial electron-transport chain, to produce water, is considered to be a relatively safe process; however, the univalent reduction of oxygen generates reactive intermediates. The reductive environment of the cellular milieu provides ample opportunities for oxygen to undergo unscheduled univalent reduction. Thus the superoxide anion radical, hydrogen peroxide and the extremely reactive hydroxyl radical are common products of life in an aerobic environment, and these agents appear to be responsible for oxygen toxicity. To survive in such an unfriendly oxygen environment, living organisms generate--or garner from their surroundings--a variety of water- and lipid-soluble antioxidant compounds. Additionally, a series of antioxidant enzymes, whose role is to intercept and inactivate reactive oxygen intermediates, is synthesized by all known aerobic organisms. Although extremely important, the antioxidant enzymes and compounds are not completely effective in preventing oxidative damage. To deal with the damage that does still occur, a series of damage removal/repair enzymes, for proteins, lipids and DNA, is synthesized. Finally, since oxidative stress levels may vary from time to time, organisms are able to adapt to such fluctuating stresses by inducing the synthesis of antioxidant enzymes and damage removal/repair enzymes. In a perfect world the story would end here; unfortunately, biology is seldom so precise. The reality appears to be that, despite the valiant antioxidant and repair mechanisms described above, oxidative damage remains an inescapable outcome of aerobic existence. In recent years oxidative stress has been implicated in a wide variety of degenerative processes, diseases and syndromes, including the following: mutagenesis, cell transformation and cancer; atherosclerosis, arteriosclerosis, heart attacks, strokes and ischaemia/reperfusion injury; chronic inflammatory diseases, such as rheumatoid arthritis, lupus erythematosus and psoriatic arthritis; acute inflammatory problems, such as wound healing; photo-oxidative stresses to the eye, such as cataract; central-nervous-system disorders, such as certain forms of familial amyotrophic lateral sclerosis, certain glutathione peroxidase-linked adolescent seizures, Parkinson's disease and Alzheimer's dementia; and a wide variety of age-related disorders, perhaps even including factors underlying the aging process itself. Some of these oxidation-linked diseases or disorders can be exacerbated, perhaps even initiated, by numerous environmental pro-oxidants and/or pro-oxidant drugs and foods. Alternatively, compounds found in certain foods may be able to significantly bolster biological resistance against oxidants. Currently, great interest centres on the possible protective value of a wide variety of plant-derived antioxidant compounds, particularly those from fruits and vegetables.
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PMID:Oxidative stress: the paradox of aerobic life. 866 Mar 87

Lipid peroxidation has been associated with a number of specific manifestations related both to lens aging and cataract development. The assessment of the effect of various naturally occurring prooxidants as well as the development of antioxidant strategies has often been limited by the lack of appropriate and simple experimental models. In this study we discuss the adaptation of a method based on the incorporation of a fluorescent probe (parinaric acid) into biological membranes to monitor early stages of lipid peroxidation. After establishing the appropriate conditions, the method can be successfully applied to study peroxidation in bovine lens membranes, allowing for the evaluation of the effect of several free radical generating systems, including the following metal-dependent initiators: ascorbate/ iron, hydrogen peroxide/copper and cumene hydroperoxide/ copper. The inhibitory effect of the chelating agent diethylene-triaminepenta-acetic acid and the competitive hydroxyl radical scavenger sorbitol, was consistently observed on parinaric acid degradation, on hydroxyl radical yield and on the amount of thiobarbituric acid reactive material produced. It could be shown that oxidative degradation of the probe gives direct information on lens membrane susceptibility to a specific peroxidation system. Parinaric acid can therefore be used as an efficient oxidation probe to evaluate oxidative damage inflicted to lens membranes by different systems, allowing also the evaluation of the antioxidant effect of various drugs including those with potential anticataractogenic effect.
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PMID:An experimental model for the evaluation of lipid peroxidation in lens membranes. 867 Jul 39

Oxidative stress is thought to play a major role in cataract formation. The present experiments are aimed at gaining a better understanding of the systems that protect the lens from damage by reactive oxygen species. The aqueous humor normally contains hydrogen peroxide (H2O2), a compound capable of generating reactive oxygen species. The systems protecting the ocular lens from oxidative damage are primarily confined to the epithelium, a single layer of cells on the anterior side of the organ directly beneath the lens capsule. When cultured rabbit lenses were challenged with a single dose of 0.2 mM H2O2, cells in the peripheral region of the epithelium survived; those in the central region died. Here we investigate the histochemical and immunoperoxidase distributions of catalase, an enzyme which detoxifies H2O2, in cells from the peripheral and central regions of the epithelium on flat mount preparations of the epithelium. In a flat mount, the entire population of lens epithelial cells can be viewed on one preparation. The reaction product for catalase activity and its immunoperoxidase localization were more intense in peripheral epithelial cells than in cells throughout the central epithelium. Treatment of cultured lens epithelial cells or rabbit lenses with 3-aminotriazole or potassium cyanide, inhibitors of catalase, reduced or abolished the histochemical reaction product. Ultrastructural cytochemistry confirmed the presence of catalase in microperoxisomes of the epithelial cells from whole lenses. The decreased level of catalase throughout the central epithelium may account for the increased susceptibility of these cells to H2O2-induced cell death.
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PMID:Regional differences in the distribution of catalase in the epithelium of the ocular lens. 869 57

The effect of a novel flavonoid, venoruton (a mixture of mono-, di-, tri- and tetrahydroxyethylrutosides) has been investigated in healthy rat lenses and compared with diabetic cataract modelled in vitro. One mM venoruton was added to medium simulating healthy and diabetic conditions for the incubated lenses; damage was followed by either stereoscopic photography of the lenses under a Cooperative Cataract Research Group operating microscope or with our recently developed method: the leakage of lactate dehydrogenase (LDH) into the lens culture media. The increased LDH activity in the medium and observable development of the opacity were correlated with cell damage, which has been found to be associated with globular degeneration and cataract formation. The extent of opacification and LDH release is reduced if 1 mM venoruton is included in the medium. The protective effect may be related to antioxidant activity against reactive oxygen species: decreased luminol luminescence was shown after venoruton addition to either superoxide-generating hypoxanthine plus xanthine oxidase, or hydrogen peroxide.
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PMID:Modelling cortical cataractogenesis. XVIII. In vitro diabetic cataract reduction by venoruton. A flavonoid which prevents lens opacification. 888 54

Studies of the in vitro inhibitory effects of drugs most often used in the treatment of primary glaucoma on the generation of the main active oxygen forms (hydroxyl radical, superoxide anion radical, singlet oxygen and radical products of hydrogen peroxide and peroxidase reaction) showed that antiradical activity is more intrinsic for thimolol and decreases in the following series: betoptic-pilocarpinclofelin. This once more validates the efficacy of beta-blockers in the treatment of glaucoma and prevention of cataract associated with it.
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PMID:[Comparative study of antiradical effects of several antiglaucoma drugs]. 962 11

The physiological concentration of hydrogen peroxide in the aqueous humor was reported to range between 25 and 60 microM, and conditions leading to elevated levels could have important damaging effects such as cataract formation. However, the high concentration of ascorbic acid in aqueous humor, which is 20 times that of plasma, was recently shown to interfere in the dichlorophenol-indophenol assay for hydrogen peroxide. The actual concentration of hydrogen peroxide in this fluid has become a controversial issue. In the present study, we used the method of ferrous oxidation of xylenol orange (FOX1 assay) performed in a nitrogen atmosphere to accurately measure low levels of hydrogen peroxide, even in the presence of ascorbic acid at concentrations normally found in aqueous humor. Contrary to values reported in the literature, we observed that the concentration of hydrogen peroxide in the rabbit aqueous humor is less than 5 microM, which is the detection limit of the method.
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PMID:Measurement of hydrogen peroxide in biological samples containing high levels of ascorbic acid. 975 Jan 36


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