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)

Activity of Na-K-ATPase decreases in normal bovine and human lens with age. In senile cataract this tendency continues to some extent. In most lenses, clear or opaque, the presence of an inhibitor to Na-K-ATPase can be demonstrated. Its activity which is not influenced by a dialysis, seems to vary greatly. So it is impossible for the moment being to draw conclusions on this special point, except perhaps a certain increase of the inhibition during aging.
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PMID:[Na-K-ATPase activity in the normal aging crystalline lens and in senile cataract]. 13 53

Lens epithelial cells from normal and Nakano adult mice have been cultured for over 1 year, and the cells have retained certain differentiated characteristics. Fluorescent antibody to mouse gamma crystallin reacted with the spherical lentoid bodies which appeared approximately 2 weeks after the start of the culture. The lentoid bodies also contained cells which had few cell organelles and homogenous cytoplasms. Both gamma crystallin production and loss of cellular organelles are characteristics of differentiated fiber cells rather than epithelial cells. An inhibitor of the Na-K ATPase is responsible for the hydration and subsequent cataract formation in the Nakamo mouse. The inhibitor of the Na-K ATPase was demonstrated in the lens in culture from the Nakamo mice, but no inhibitory activity was detected in the cultures from normal mice.
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PMID:Tissue culture of lens epithelial cells from normal and Nakano mice. 13 83

The epithelial Na-K-ATPase activity of the rat lens was studied after X-irradiation at intervals of three to ninety days. The enzyme was demonstrated histochemically by light microscopy and it was measured biochemically by a fluorometric method. Neither histochemical nor biochemical changes of Na-K-ATPase content of the lens epithelium were observed during the development of cataract. In whole-mount preparations the enzyme activity was localized in the cell membranes. However, one month after radiation a few peripheral cells had in addition a precipitated over the whole cell. The unaltered Na-K-ATPase content in the epithelium suggests that the hydration of the lens after X-irradiation is primarily caused by changes in the passive permeability properties of the cell membranes and not by a decreased capacity of the activity cation pump.
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PMID:The effect of X-irradiation on the sodium-potassium-activated adenosine triphosphatase (Na-K-ATPase) activity in the epithelium of the rat lens. A histochemical and biochemical study. 15 Jul 77

Na,K-ATPase, an enzyme intrinsic to the membrane of most cells, is inhibited in cataract. Na,K-ATPase, activity in clear non-cataractous lenses is found predominantly in the lens epithelium. The lens fiber cells would appear to be unique, among mammalian cells in that Na,K-ATPase activity is low if not absent. The study presented here indicates that Na,K-ATPase is present, often in high concentration, but progressively more functionally compromised as the fiber cells mature. The membrane lipid environment as causative agent in the loss of normal function of Na,K-ATPase, is considered in this study. The data indicate a correlation between increasing cholesterol/phospholipid ratio, increasing phospholipase A2 activity and decreasing Na,K-ATPase activity in normal clear lenses. The phospholipase A2 activity is higher in cortex and nucleus than in the epithelium of normal bovine and human lenses. The phospholipase A2 is Ca2+ dependent and may be membrane associated.
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PMID:Na,K-ATPase and phospholipid degradation in bovine and human lenses. 131 22

Sodium gradient-dependent 45Ca2+ transport occurred across the lens membrane both in the direction of Ca2+ uptake by inside-out vesicles and Ca2+ efflux after Ca2+ loading of right-side-out vesicles. Using the calcium ionophore, A23187, greater than 90% of the Na+ gradient-dependent Ca2+ uptake was estimated to be free Ca2+. A normal Na+ gradient was also required to maintain calcium homeostasis in the intact lens. The Na+ gradient contributed to Ca2+ efflux from lenses pre-loaded in medium containing 15 mM CaCl2. Therefore, a Na/Ca-exchange functions to control Ca efflux in rat lens, in addition to the Ca-ATPase. In the preweanling rat mature nuclear cataracts occurred by 96 h after subcutaneous injection of sodium selenite (30 nmol/g animal wt). A 3-5 fold increase of Ca2+ accompanied cataract formation. The loss of Ca2+ homeostasis can be detected by 48 h after treatment selenite treatment. At this time the initial rate of Na+ gradient-dependent Ca2+ uptake was 30% lower in lens vesicles from selenite-treated rats compared to controls. No significant reduction of Na+,K(+)-ATPase activity was detected. Altered Na/Ca-exchange may contribute directly to the loss of Ca2+ homeostasis that leads to nuclear cataract.
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PMID:Calcium efflux in rat lens: Na/Ca-exchange related to cataract induced by selenite. 132 93

Cultured rabbit lenses were irradiated with UV (311 nm peak; 295-340 nm) for 30 to 60 min. The entire spectrum lies in the near-UV, the major component is UVB, with a minor portion (25%) of UVA, and is henceforth referred to as near-UV(B). Posterior irradiation caused no cataract and no significant ionic imbalances compared to anterior irradiation, which caused opacification and marked changes in sodium and calcium concentrations. Anterior irradiation also resulted in reduced Na/K-ATPase activity in the epithelium. ATPase activity was not immediately inhibited; rather, only after culture was enzyme activity reduced. The concentration of reduced glutathione (GSH) decreased rapidly in the epithelium and more slowly in the underlying lens fibers. Loss of GSH was more rapid and extensive when irradiation occurred in the presence of oxygen. Irradiation under anaerobic conditions resulted in opacification but was considerably less extensive than when irradiation of lenses occurred in the presence of 7% oxygen. Near-UV(B) damage following anaerobic irradiation and 20 hrs of culture resulted in an increase in sodium levels and loss of GSH; calcium levels were not significantly elevated. Since irradiation of tryptophan solutions produced small amounts of hydrogen peroxide, the possibility of hydrogen peroxide-mediated damage was investigated but no role could be substantiated. Peroxide detoxification by the epithelium of near-UV(B) cataracts was observed, as measured by its ability to eliminate hydrogen peroxide added as a bolus.
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PMID:Mechanisms involved in cataract development following near-ultraviolet radiation of cultured lenses. 132 94

The evidence of sorbitol excess in the crystalline lens of alloxan-diabetic rats has led to anticipate the role of the enzyme aldose-reductase in the pathogenesis of the diabetic cataract. In addition, a number of experimental works have more recently shown the involvement of myoinositol deficiency, which probably results from the sorbitol accumulation. These metabolic pathways are most likely implicated in the pathogenesis of diabetic neuropathy and perhaps additionally in that of microangiopathy. The synthesis of several aldose-reductase inhibitors (AR inhibitors) confirmed experimentally these hypothesis. By reducing the activity of the enzyme aldose-reductase, these substances suppress the adverse metabolic consequences of polyol accumulation, myositol deficiency and dysfunction of the Na+/K+ ATPase dependent sodium activity. Although different experimentations showed that the AR inhibitors could prevent in animals the development of experimental cataract as well as the early functional or later anatomic abnormalities of the diabetic retinopathy and nephropathy, the clinical trials did not clearly support these experimental results in humans. On the other hand, the AR inhibitors were proved to exhibit some efficacy in the early stage of diabetic neuropathy and in incipient nephropathy where they delay the development of albustix positive proteinuria. However, the benefit of an early treatment with AR inhibitors should be confirmed by long term prospective studies, which could also assess the safety of these drugs in chronic administration.
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PMID:[Role of polyols in the development of diabetic complications. Value of aldose-reductase inhibitors]. 141 Aug 79

The naphthalene-induced cataract in rats has been studied for many years as a possible model of human aging-related cataract. While the molecular mechanism of this cataract is unclear, it has recently been demonstrated that the aldose reductase inhibitor ALO1576 can prevent lens opacification in this system. The present study was undertaken to investigate the molecular basis for the effects of naphthalene on the lens and the role of pigmentation in the cataractogenic mechanism. Cataracts were induced in five strains of rats (two pigmented, three albino) by oral administration of naphthalene. Initial lens changes were observed after 1 week by slit-lamp; by 3 weeks a distinct shell-like opacity was present in the deep cortex. Little difference in the course of opacification was found between the pigmented and albino strains. Major biochemical effects were a decrease of 20-30% in glutathione (GSH) by 1 week of feeding, disulfide cross-linking of lens proteins present by 3 weeks, and a nearly 20-fold increase in the content of protein-GSH mixed disulfide. No effect was seen in the ability of the affected lenses to accumulate activity [3H]choline or 86Rb from the medium in organ culture nor in the activity of the Na+/K(+)-ATPase. ALO1576 (10 mg kg-1 day-1) completely prevented all morphological and biochemical changes in the lenses of the naphthalene-fed rats in both pigmented and non-pigmented strains. These results indicate that pigmentation is not required for induction of naphthalene cataract in rats. Naphthalene dihydrodiol was found in the aqueous humor and lens of naphthalene-fed rats. It is proposed that naphthalene dihydrodiol produced in the liver reaches the aqueous humor and penetrates the lens where it is further metabolized ultimately to form the toxic species, naphthoquinone.
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PMID:The possible mechanism of naphthalene cataract in rat and its prevention by an aldose reductase inhibitor (ALO1576). 154 42

In the past, almost all studies on naphthalene cataract were based on in vivo experiments. Such studies are laborious and time-consuming and are complicated by systemic toxicity arising from the metabolites of naphthalene. In order to study the direct effects of naphthalene metabolites on the lens, we established an in vitro 'naphthalene cataract' model system by exposing rat lens to naphthalene dihydrodiol (2.5 x 10(5) M) containing medium for 48 hr. Under these conditions, we analysed several biochemical parameters including the glutathione level, protein mixed disulfides, protein patterns on SDS-gels, active transport, NA+/K(+)-ATPase activities and the measurement of naphthalene metabolites in the cultured lenses. The results showed that both the morphological and biochemical changes were very similar to those observed in lenses of rats fed naphthalene (1 g kg-1 day-1). Furthermore, ALO1576 completely blocked the in vitro changes as it did in vivo. Therefore, this model system can be used as a new tool to investigate the mechanism of naphthalene cataract formation. Other naphthalene metabolites such as 1-naphthol, 2-naphthol, 1,2-dihydroxynaphthalene and 1,2-naphthoquinone were also studied in vitro and the results showed that the effects of these naphthalene metabolites were very different from those observed in naphthalene cataracts in vivo.
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PMID:Establishment of a naphthalene cataract model in vitro. 154 43

Attenuation of both the active transport of myo-inositol and Na(+)-K(+)-ATPase pumping activity has been implicated in the onset of sugar cataract and other diabetic complications in cell culture and animal models of the disease. Cultured bovine lens epithelial cells (BLECs) maintained in galactose-free Eagle's minimal essential medium (MEM) or 40 mM galactose with and without sorbinil for up to 5 days were examined to determine the temporal effects of hypergalactosemia on Na(+)-K(+)-ATPase and myo-inositol uptake. The Na(+)-K(+)-ATPase pumping activity after 5 days of continuous exposure to galactose did not change, as demonstrated by 86Rb uptake. The uptake of myo-[3H]inositol was lowered after 20 h of incubation in galactose and remained significantly below that of the control throughout the 5-day exposure period. The coadministration of sorbinil to the galactose medium normalized the myo-[3H]inositol uptake. No significant difference in the rates of passive efflux of myo-[3H]inositol or 86Rb from preloaded galactose-treated and control cultures was observed. Culture-media reversal studies were also carried out to determine whether the galactose-induced dysfunction in myo-inositol uptake could be corrected. BLECs were incubated in galactose for 5 days, then changed to galactose-free physiological medium with and without sorbinil for a 1-day recovery period. myo-Inositol uptake was reduced to 34% of control after 6 days of continuous exposure to galactose. Within 24 h of media reversal, myo-inositol uptake returned to or exceeded control values in BLECs switched to either MEM or MEM with sorbinil.2+ reversible and occurred independently of changes in Na(+)-K(+)-ATPase pumping activity in cultured lens epithelium, indicating that the two parameters are not strictly associated and that the deficit in myo-inositol uptake occurs rapidly during hypergalactosemia.
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PMID:Uncoupling of attenuated myo-[3H]inositol uptake and dysfunction in Na(+)-K(+)-ATPase pumping activity in hypergalactosemic cultured bovine lens epithelial cells. 164 82

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