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)

E64, an inhibitor of calpain (EC 3.4.22.17) and other cysteine proteases, slows the rate of formation of cataract in cultured rat lenses. The purpose of this study was to determine (1) why E64, a charged compound with little cell permeability, was effective in reducing cataract in cultured lens and (2) whether uncharged more permeable protease inhibitors are more effective than E64 in preventing cataract. Results showed that E64 entered the lens, but only after the lens was treated with the calcium ionophore, A23187, or sodium selenite, both of which cause cataracts. Therefore, the uptake and subsequent effectiveness of E64 may be related to a generalized increase in membrane permeability during induction of cataract in culture. Three protease inhibitors, reported to have improved cell permeability, were compared with E64 for their ability to prevent cataracts in cultured lenses. cBz-ValPheH, calpain inhibitors I and II, are uncharged-aldehyde inhibitors of calpain. Calpain inhibitors I and II even at high concentrations were not effective at reducing lens opacity caused by calcium ionophore and were toxic to the lens. cBz-ValPheH, which is slightly toxic to the lens, was able to significantly reduce lens opacity induced by calcium ionophore. The presented data suggest that while E64 decreases cataract formation in cultured lens, the more cell permeable inhibitor, cBz-ValPheH, may have greater efficacy as an anticataract drug in vivo.
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PMID:Comparison of cell-permeable calpain inhibitors and E64 in reduction of cataract in cultured rat lenses. 144 Jun 13

The purposes of this experiment were: (1), to compare effect of three E64 derivatives, E64, E64c and E64d in preventing nuclear opacity and proteolysis in calcium ionophore-induced cataract and (2), to measure the accumulation of E64 derivatives in the cultured lenses. In vitro E64 and E64c strongly inhibited purified calpain II from porcine heart, while E64d showed weaker inhibition than E64 and E64c. In cultured lenses, all three E64 derivatives reduced nuclear opacity by calcium ionophore A23187 in a concentration-dependent manner, and E64d, the ethyl-ester of E64c, was the most effective. When lenses were cultured in E64d for 2 h, the resulting concentration of E64 derivative in the lens was markedly higher than during culture in E64 or E64c. All three E64 derivatives prevented proteolysis of crystallins seen in A23187 cataract. The stronger effect of E64d against A23187 cataract was likely due to an earlier penetration into the lens, conversion to E64c and inhibition of activated calpain.
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PMID:Superior prevention of calcium ionophore cataract by E64d. 146 73

The purpose of this experiment was to determine the contribution of calpain proteolytic enzyme (EC 3.4.22.17) in the formation of nuclear cataract during lens culture in xylose. Increased lens calcium was found to be required for formation of xylose nuclear cataract in our culture system. Inhibition of calpain by the cysteine protease inhibitor E64 was effective in slowing the formation of nuclear cataract, even though lens calcium and hydration were markedly elevated. These results showed that hydration and elevated calcium alone do not produce xylose nuclear cataract, and they indicated that calpain proteolysis may be necessary for xylose nuclear cataract in the rat lens.
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PMID:Hydration and elevated calcium alone do not produce xylose nuclear cataract: role of proteolysis by calpain. 160 94

Addition of calpain II (EC 3.4.22.17) to soluble proteins from 10-day-old rat lens caused an increase in turbidity and production of water-insoluble protein. The insolubilization increased with higher concentrations of both lens protein and calpain II, it could be prevented by the cysteine protease inhibitor E-64; it required at least 0.5 mM Ca2+, it was limited to 6% of the soluble protein present and resulted from precipitation of proteolyzed beta-crystallin polypeptides. When compared by two-dimensional electrophoresis, the insoluble beta-crystallin polypeptides produced by calpain II were similar to insoluble beta-crystallin polypeptides found in cataractous lenses. Trypsin also caused insolubilization of beta-crystallin polypeptides, but these polypeptides were unlike polypeptides produced during cataract formation. These data suggested that the loss of solubility was due to a specific removal of N/or C-terminal extensions from beta-crystallin polypeptides by calpain II, and that a similar process may occur in vivo during cataract formation. It is hypothesized that the insoluble protein produced by calpain II causes cataract by increasing light scatter in the lens.
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PMID:Calpain II induced insolubilization of lens beta-crystallin polypeptides may induce cataract. 162 59

Lenses cultured in diamide first developed outer cortical opacities followed by nuclear cataract. Lens hydration and total calcium were markedly increased by diamide. Proteolysis of crystallins were observed in nuclear cataract lenses. Calpain in the soluble fraction of lenses cultured with diamide was decreased, while calpain in the insoluble fraction was increased. Co-culture with E64d, an inhibitor of cysteine protease such as calpain, especially prevented nuclear opacities and proteolysis of crystallins, indicating that calpain was involved in cataract formation by diamide.
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PMID:Involvement of calpain in diamide-induced cataract in cultured lenses. 164 87

Cataracts were produced in cultured rat lenses by either 10 microM calcium ionophore A23187, 25 microM sodium selenite, or 30 mM xylose. E64, an inhibitor of cysteine proteases, such as calpain (EC, 3.4.22.17), reduced severity of cataract and proteolysis of crystallins when included at a 500 microM concentration in the culture medium along with cataractogenic agents. Calpain II enzyme activity and the amount of calpain antigen were decreased in the cytosol of cataractous lens. However, E64 caused an increase in the amount of an 80-kD calpain subunit associated with the ethyleneglycol-bis-(beta-aminoethylether) tetraacetic acid/ethylenediaminetetraacetic acid-washed insoluble proteins when lenses were incubated with cataractous agents. These data indicate that E64 was at least partially effective in inhibiting lens calpain, and that activation of lens calpain may involve binding to the insoluble fraction. These results provide strong evidence for the activation of calpain in rodent cataracts and suggest testing inhibitors of calpain as anticataract drugs.
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PMID:Amelioration of cataracts and proteolysis in cultured lenses by cysteine protease inhibitor E64. 184 10

The purpose of this experiment was to test the effectiveness of E64 in prevention of selenite nuclear cataract in the whole animal. E64 is an inhibitor of cysteine proteases such as calpain (EC.3.4.22.17). In the whole animal, daily intraperitoneal injection of E64 was mildly effective in slowing the rate of formation of selenite nuclear cataract, although prevention was not permanent. Frequency of the nuclear cataract in selenite group at 5 days post selenite injection was significantly decreased from 40% to 17% in the selenite + E64 group, and the density of cataract in the Se + E64 group was reduced. However, crystallins and calpain were still degraded in the selenite + E64 group. E64 was more effective against selenite cataract when present continuously during lens culture, where it slowed the rate of formation of nuclear opacity. Amelioration of cataract occurred both in vitro and in vivo even though lens calcium concentrations were elevated. The results supported the idea that application of calpain inhibitor is beneficial in prevention of rodent selenite cataracts.
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PMID:Cysteine protease inhibitor E64 reduces the rate of formation of selenite cataract in the whole animal. 191 2

Cataracts were produced in rat lenses by either feeding a diet containing 50% galactose or by inducing diabetic condition by intravenous injection of streptozotocin. Proteolysis of crystallins, protease activity of calpain II enzyme (EC 3.4.22.17), and presence of calpain molecule (antigen) were determined at four cataract stages--I, cortical vacuoles, II, vacuoles plus hazy cortex, III, nuclear cataract, and IV, mature cataracts. Calpain activity was normal or moderately elevated at early stages of galactose and diabetic cataracts. Later stages III and IV showed proteolysis of lens crystallins, increased proportion of insoluble proteins, loss of calpain enzyme activity and calpain molecule from the soluble fraction, and reduced amounts of calpain associated with insoluble pellet. In galactose cataract, the largest increase in lens calcium were found when proteolysis was present. These results provide evidence for calpain-induced proteolysis of lens crystallins in two in vivo models of sugar cataracts in rodents.
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PMID:Calpain II in two in vivo models of sugar cataract. 220 51

The purposes of the current study were to: determine if human lenses contain calpain II (EC.34.22.17) activity, measure the effect of aging and anatomical location on lens calpain II activity, and determine if human lenses contain the endogenous calpain inhibitor calpastatin. Both enzymatic and immunologic assays indicated that human lenses contained calpain II activity. Calpain II activity was highest in the cortex of lenses from young donors, and lowest in the nucleus of aged lenses, where it was sometimes nondetectable. In some cases, calpain II activity persisted in the nucleus of lenses from donors greater than 70 years of age. Human lenses also contained endogenous calpain inhibitor (calpastatin) in excess over calpain enzymatic activity. Calpastatin activity did not decrease during aging. Although human lenses contained approximately 3% of the calpain activity found in rat lenses, calpain II may still be a major endopeptidase in human lenses. Demonstration of calpain II in human lenses suggested that calpain II could be involved in both lens maturation and cataract formation.
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PMID:Calpain II in human lens. 253 46

It has been suggested that proteases are involved in removal of damaged or obsolete proteins and/or that the activation of proteases could contribute to cataract formation. This review summarizes the properties of several recently studied lens endopeptidases including: trypsin-like protease, multicatalytic endopeptidase complex, membrane bound proteases, and calpain. Properties discussed include composition, substrate specificity, distribution, changes in activity during aging, and regulation. Additionally, properties of the lens ubiquitin conjugation system are reviewed. When possible, an attempt was made to relate these findings to whether the lens proteolytic activity was involved in clearing damaged proteins, or whether it could contribute to cataract formation. Clearing of damaged or obsolete lens proteins may involve the participation of several protease activities. Findings suggest that lens protease activities are lost at variable rates during aging, and differ in concentration between species. It was concluded that the consequence of proteolytic activity in the lens may depend closely on the compliment of proteolytic activities found. For instance, proteases causing only partial degradation of lens proteins may predominate in lenses undergoing cataract formation, while proteases assisting in the removal of partially degraded proteins are lost. The partially degraded lens proteins, as well as other denatured lens proteins, may then accumulate and lead to cataract formation.
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PMID:Role of proteolysis in lenses: a review. 256 21

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