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 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

It is well known that polyol related sugar cataract formation is preventable with aldose reductase inhibitor (ARI) and newly developed different kinds of ARIs have been extensively studied for potential clinical use. The potency of AD-5467 ARI (Takeda) on hyperglycemic lenses was evaluated by measuring of phosphate metabolites in phosphorus-31, (31P) nuclear magnetic resonance (NMR) spectra. Moreover, the effects of antioxidant butylated hydroxytoluene (BHT) and cysteine protease inhibitor E64 on hyperglycemic lenses were evaluated for comparative study, since some studies showed that these agents also possess the delay or preventive effects in sugar cataractogenesis. The lenses were dissected out from bovine eyes and incubated in Dulbeco's modified Eagles (DME) media containing 5.6 mM and 40 mM glucose with or without the ARI, BHT, E64 for 24 hours. These were assessed by MNR spectrometer operating at 109.25 MHz for 31P. The morphologic changes of the lenses were revealed by histologic and ultrastructural examinations. The lenses incubated in high glucose medium showed significant decreased levels of adenosine triphosphate (ATP), associated with increased inorganic phosphates and sugar phosphates levels. The lenses treated with ARI or E64 showed 70% to 80% protection of ATP levels and those with BHT showed 100% protection of ATP levels. These results indicated that sugar catractogenesis is multifactorial process in which the other mechanisms are also involved besides the polyol pathway mechanism.
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PMID:The efficacy of aldose reductase inhibitor, antioxidant butylated hydroxytoluene and cysteine protease inhibitor E64 on hyperglycemia-induced metabolic changes in the organ-cultured bovine lens. 804 92

The purpose of these experiments was to examine the relationship between oxidation cataract and proteolysis in cultured rat lens. Hydrogen peroxide cataract showed insolubilization of protein, loss of 31 kDa beta B1-crystallin polypeptide, decreases in soluble calpain, and increases in insoluble calpain. This suggested that calpain may be activated in hydrogen peroxide treated lenses, since beta B1 is a known calpain substrate, and calpain undergoes autolysis and degradation when activated. Furthermore, the cysteine protease inhibitor E64 was partially effective in preventing development of H2O2-cataract. E64 also prevented the loss of the 31 kDa beta B1-crystallin polypeptide and decreased the loss of calpain in the lens. These results suggested that development of hydrogen peroxide induced cataract in rat lenses was associated with activation of calpain.
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PMID:Role of calpain in hydrogen peroxide induced cataract. 831 93

This study reports the first demonstration of a marked reduction in alpha-crystallin chaperone activity in an experimental model of cataract, and the study implicates activation of the cysteine protease calpain II (EC 3.4.22.17) as the in vivo protease responsible for decreased chaperone activity. Chaperone activity of normal alpha-crystallin from lenses of young rats was assayed by measuring attenuation of heat-induced aggregation and scattering of beta L-crystallin. alpha-Crystallin from the nucleus of lenses with selenite cataract showed specific selective proteolysis, and chaperone activity was diminished. Proteolysis of alpha-crystallin from selenite cataract lenses was mimicked by incubating normal alpha-crystallin with calpain II, and this also resulted in loss of chaperone activity. Two-dimensional gel electrophoresis and peptide mapping were used to identify four partially degraded alpha A- and alpha B-crystallin polypeptides following incubation of normal alpha-crystallin with calpain. Similar partially degraded alpha A and alpha B polypeptides were found in selenite cataract. Previous experiments indicated that alpha-crystallin chaperone activity decreases because of removal of the COOH terminus. Our experiments support this observation and suggest that calpain proteolysis of alpha-crystallin at the COOH terminus may result in a loss of chaperone activity in selenite cataract.
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PMID:alpha-Crystallin chaperone activity is reduced by calpain II in vitro and in selenite cataract. 839 20

The overall goal of this study was to provide data on the function and physiologic significance of lens calpain I, a cysteine protease requiring low amounts of calcium for activation. Reverse-transcriptase polymerase chain reaction was used to detect mRNAs for calpains I and II in young rat lenses. An in vitro model of crystallin precipitation was used to assess the ability of calpain I to induce hydrolysis and precipitation of crystallins. We found that incubation of crystallins with purified calpain I was indeed a powerful inducer of crystallin precipitation. However, mRNA levels for calpain I in whole lens appeared to be lower compared to calpain-II mRNA. Participation of calpain I in crystallin precipitation during normal maturation of rodent lenses or cataract formation is thus theoretically possible, but unlikely, because of the low level of expression of calpain I.
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PMID:In vitro precipitation of rat lens crystallins by calpain I--a calpain requiring low amounts of calcium for activation. 888 97

Transgenic mice, homozygous for HIV-1 protease expression in the eye lens, display degradation of some lens crystallins and cytoskeletal proteins prior to cataract formation on postnatal days 23-25. Alterations to the internal lens hydration state also occur; therefore, the status of the aquaporin protein MIP26 was examined over postnatal days 16-25 to determine if it was altered during cataractogenesis. The MIP was identical in transgenic and control lenses until day 21. By postnatal day 25 (frank cataract), in the lenses obtained from transgenic animals, the 26-kDa band was absent and there was a concurrent increase in the proportion of MIP23. Immunoblotting demonstrated cleavage at the C terminus. Lenses were also maintained in an organ culture system to demonstrate that the cataractogenic process is inherent to the isolated lens and to determine the contribution of cysteine protease action. Organ culture experiments revealed a similar progression to nuclear cataract formation as seen in vivo. Two-dimensional gel analysis of the soluble lens crystallin fraction of organ cultured lenses revealed the same cleavage pattern as occurs in vivo. Organ culture of transgenic lenses with E64, a cysteine protease inhibitor, dramatically delayed cataractogenesis and prevented proteolytic cleavage of both MIP26 and crystallins. HIV-1 protease, while the trigger of cataract formation, does not appear to be the protease responsible for cleavage of MIP or lens crystallins. These results suggest that activation of endogenous cysteine protease activity is involved in the cleavage of these proteins and occurs downstream of HIV-1 protease action.
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PMID:Cysteine protease activated by expression of HIV-1 protease in transgenic mice. MIP26 (aquaporin-0) cleavage and cataract formation in vivo and ex vivo. 894 20

A presence of cystatins, inhibitors of cysteine protease, was investigated in tears of patients with different corneal pathologies. Tear fluid samples were collected with glass capillaries in 28 patients (28 eyes) and 15 healthy controls (15 eyes). Only after corneal transplantation (8) or in corneal dystrophy (6) but not after cataract extraction (5) or other traumatic conditions of the cornea (9) was a significant difference in inhibitory activity of cystatins measured in comparison with the 15 controls. In this study it could not be decided whether the lower level of cystatins was related to the cause or the effect of the condition of the eye.
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PMID:Cystatins in tears of patients with different corneal conditions. 943 82

Calpain I (mu-calpain) and II (m-calpain) are well known calcium-activated neutral cysteine proteases. Many reports have shown that activation of calpain is related to cataract formation, neuronal degeneration, blood clotting, ischemic injuries, muscular dystrophy and cornified cell envelope (CE) formation. Here, we report that insoluble CE formation was reduced after treatment with calpain I inhibitor (N-acetyl-leucyl-leucyl-norleucinal) on normal human epidermal keratinocytes (NHEK), whereas serine and thiol protease inhibitors had no effect on the reduction of CE. When NHEK cells were confluent, keratinocytes were treated with various concentrations (0.5 microM-0.5 mM) of calpain I inhibitor or serine and thiol protease inhibitors under calcium induced differentiation. Insoluble CE formation was reduced about 90% in the 50 microM calpain inhibitor I treated group by day 9 of culture, whereas insoluble CE was reduced only 10% in the same condition. Interestingly TGase activity was blocked by 90% in the 0.5 mM calpain inhibitor treated group within 72 h, whereas TGase activity was retained by 80% in the 0.5 mM serine protease inhibitor treated group at 7 day treatment. Therefore it can be suggested that cysteine protease calpains might be responsible for the activation of the TGase 1 enzyme to complete insoluble CE formation during epidermal differentiation.
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PMID:Calpain inhibitors reduce the cornified cell envelope formation by inhibiting proteolytic processing of transglutaminase 1. 989 58

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