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)

Reconstitution of the lens fiber cell protein known as MIP26 into liposomes composed of heterologous phospholipids was achieved; this protein renders the liposomes permeable to low molecular weight compounds. MIP26 from either bovine or human lenses was capable of forming channels in artificial membranes. The assay technique was sufficiently sensitive to allow reconstitution of MIP26 from single human lenses, enabling us to examine the function of channels from either cataractous or age-matched normal lenses. Decreases in pH can cause these channels to close, analogous to the hypothesized channel closing in the in vivo situation. The pH optimum of reconstituted channels in liposomes containing MIP26 from bovine lenses or normal human lenses is very sharp; but is substantially broadened if the liposomes contain MIP26 from cataractous human lenses. This latter result suggests a functional alteration in human lens membranes which is correlated with the development of human senile cataract.
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PMID:Reconstitution of MIP26 from single human lenses into artificial membranes. I. Differences in pH sensitivity of cataractous vs. normal human lens fiber cell proteins. 390 82

Water-soluble and water-insoluble polypeptides from nuclei of clear vs. opaque and brunescent human lenses were resolved by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and electrophoretically transferred to nitrocellulose paper. Treatment of the nitrocellulose blots with monospecific antisera to human alpha and beta crystallin and to antisera against the Major Intrinsic Polypeptide (MIP26) of lens membrane demonstrated no difference in binding between microdissected sections of clear vs. opaque (and brunescent) nuclei. In contrast, treatment of nitrocellulose blots with monospecific antisera to human gamma crystallin demonstrated little or no binding to polypeptides from opaque (and brunescent) nuclei as compared with age-matched clear nuclei. These results demonstrate the selective involvement of gamma crystallins in opacification (and brunescence) in the human lens nucleus, and strongly suggest the presence of covalent changes of the gamma crystallin molecule during development of the human nuclear cataract.
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PMID:Characterization of polypeptides from human nuclear cataracts by Western blot analysis. 397 61

In this study, we tested the adhesion-promoting role of major intrinsic protein from both normal human (cadaver) and senile cataractous lenses. Junctional membrane solubilized proteins and pure major intrinsic protein obtained from both type of lenses were reconstituted in neutral phosphatidylcholine liposomes. The interaction of these liposomes with phosphatidylserine vesicles was studied by resonance energy transfer. Our results show that normal human lens junction solubilized proteins and pure major intrinsic protein isolated from them promote adhesion. No quenching effect was observed when major intrinsic protein was omitted in the vesicle reconstitution, no other intrinsic protein of normal human junctional membrane provoked the adhesive effect. In contrast, major intrinsic protein isolated from human senile cataractous lens fails to induce adhesion. The proteolytic cleavages that in vitro originate major intrinsic protein 22,000 Da did not blunt its adhesive capability, suggesting that the proteolytic modifications that major intrinsic protein undergoes in senile cataract were not related with the incompetence of cataractous lens junctions to induce adhesion. Cataractous lens junctional membranes showed protein aggregates. These membranes were treated with sodium hydroxide and reconstituted into liposomes. The sodium hydroxide treatment removed the protein aggregates and restored the adhesive capability. Furthermore, the supernatant obtained after the sodium hydroxide treatment of cataractous junctional membranes, inhibited the adhesive effect of vesicles reconstituted with bovine solubilized proteins. These experiments prove that the failure to induce adhesion of human senile cataractous lens junction proteins is due to the interaction with protein aggregates, which can be removed by sodium hydroxide.
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PMID:Biochemical evidence for adhesion-promoting role of major intrinsic protein isolated from both normal and cataractous human lenses. 755 93

The major intrinsic protein (MIP) of the vertebrate eye lens is the first identified member of a sequence-related family of cell-membrane proteins that appears to have evolved by gene duplication. Several members of the MIP family transport water (aquaporins), glycerol and other small molecules in microbial, plant and animal cells. Mutations in two aquaporin homologues of MIP underlie an autosomal recessive form of nephrogenic diabetes insipidus and absence of the Colton blood group antigens in humans, whereas, mutation of a third MIP-like gene underlies 'big brain' development in Drosophila. Here we show that distinct mutations in the murine Mip gene underlie one form of autosomal dominant cataract in the mouse. The cataract Fraser mutation is a transposon-induced splicing error that substitutes a long terminal repeat sequence for the carboxy-terminus of MIP. The lens opacity mutation is an amino-acid substitution that inhibits targeting of MIP to the cell-membrane. These allelic cataract mutations provide the first direct evidence that MIP plays a crucial role in the development of a transparent eye lens.
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PMID:Mutations in the founder of the MIP gene family underlie cataract development in the mouse. 856 64

Calpains are Ca-activated neutral proteases present in all cells together with an endogenous inhibitor, calpastatin. Proposed substrates are; cytoskeletal proteins like microtubules and actin, protein kinases such as PKC and membrane-bound enzymes like Ca-ATPase and the Ca-channel. In lenses from different species calpains have been detected in decreasing amounts from the epithelium to the cortex to the nucleus. Several substrates for calpain in the lens have been demonstrated: crystallins, vimentin, actin, beaded filaments and MP26 among others. Both studies on animal models and capsulorhexis indicate that calpains are mainly involved in cortical cataract.
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PMID:Calpains in the human lens: relations to membranes and possible role in cataract formation. 872 65

Glycation has been implicated in cataract formation. Our earlier studies showed that crystallin glycation enhances oxidation and aggregation, whereas MIP26 glycation affects the membrane permeability. Scheimpflug densitometric analysis has been used to quantify the lens opacification. In this study, we measured the progressive changes in lens opacification and correlated them with protein glycation in streptozotocin-induced diabetic rats. The lens opacification progressed in a biphasic manner: an initial slow increase between 0 and 60 days, followed by a steep increase between 60 and 90 days of diabetes. There was a strong correlation between lens opacification and lens crystallin and MIP26 glycation. The correlation was relatively weak with plasma glucose. This study suggests that glycation of lens crystallin and MIP26 plays a significant role in the development of lens opacification in diabetic rats.
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PMID:Scheimpflug densitometric analysis of cataracts in diabetic rats: correlation with glycation. 887 86

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

Previous studies have shown that treatment of guinea pigs with hyperbaric oxygen (HBO) produces certain changes in the lens nuclei of the animals which are typical of those occurring during aging. These include an increase in nuclear light scattering (NLS), elevation in levels of oxidized thiols, loss of water-soluble protein and damage to nuclear membranes. The present study investigated the effect of HBO-treatment in vivo on lens cytoskeletal proteins and MIP26 which are also known to undergo alteration with age. Young (2-month-old) and old (18-month-old) guinea pigs were treated 15 and 30 times with HBO (3 times per week with 2.5 atmospheres of 100% oxygen for 2.5 hr periods). SDS-PAGE and Western blotting showed that HBO-treatment of the older animals accelerated the age-related loss of five nuclear cytoskeletal proteins including actin, vimentin, ankyrin, alpha-actinin and tubulin, compared to levels present in age-matched controls (effects on spectrin and the beaded filaments were not investigated in this study). Treatment of the young animals with HBO produced losses which were primarily associated with concentrations of the nuclear alpha- and beta-tubulins; these cytoskeletal proteins were observed to be most sensitive to the induced oxidative stress, and were affected earliest in the study. Disulfide-crosslinking, rather than proteolysis, appeared to be the main cause of the HBO-induced cytoskeletal protein loss (elevated levels of calcium, which might have induced proteolysis, were not found in the experimental nuclei). Loss of MIP26 was observed only in the older guinea pigs treated 30 times with HBO; both disulfide-crosslinking and degradation to MIP22 were associated with the disappearance. Thus, nuclear MIP26 was susceptible to oxidative stress, but less so than the cytoskeletal proteins, particularly the tubulins. No cortical effects on either MIP26 or the cytoskeletal proteins were observed under any of the treatment protocols. No direct link was observed between an HBO-induced increase in NLS (observed in both the young and old animals using slit-lamp biomicroscopy) and losses of either MIP26 or the cytoskeletal proteins. The appearance of HBO-induced nuclear opacity without any change in the levels of nuclear sodium, potassium or calcium is similar to that observed previously for human senile pure nuclear cataracts. The results provide additional evidence that molecular oxygen can enter the nucleus of the lens and promote age-related events. The observed effects on MIP26 and the cytoskeletal proteins are indicative of an increased level of lens nuclear oxidative stress in the HBO model, possibly a precursor to nuclear cataract.
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PMID:Hyperbaric oxygen in vivo accelerates the loss of cytoskeletal proteins and MIP26 in guinea pig lens nucleus. 1019 7

Human inherited cataract is both clinically diverse and genetically heterogeneous. Here we report the identification of the first mutations affecting the major intrinsic protein of the lens, MIP, encoded by the gene MIP on 12q14. MIP is a member of the aquaporin family of membrane-bound water channels. The mutations identified are predicted to disturb water flux across the lens cell membrane.
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PMID:Missense mutations in MIP underlie autosomal dominant 'polymorphic' and lamellar cataracts linked to 12q. 1080 46

Opacities in the crystalline lens of eye appear with high frequency in the general population. Dominantly inherited cataracts with differing clinical features were found in two families carrying different point mutations in the gene encoding lens water channel protein AQP0 (major intrinsic protein, MIP). Families with E134G have a uni-lamellar cataract which is stable after birth, whereas families with T138R have multi-focal opacities which increase throughout life. To establish pathophysiological relevance of cataract formation, the Xenopus laevis oocyte expression system was employed to evaluate functional defects in the mutant proteins, E134G and T138R. Both substitutions cause loss of membrane water channel activity due to impaired trafficking of the mutant proteins to the oocyte plasma membrane. Although missense mutations in AQP1 and AQP2 proteins are known to result in recessive traits in vivo and in vitro, when E134G or T138R are co-expressed with wild-type AQP0 protein, the mutant proteins exhibit dominant negative behaviour. To our knowledge, these studies represent the first in vitro demonstration of functionally defective AQP0 protein from humans with congenital cataracts. Moreover, these observations predict that less severe defects in the AQP0 protein may contribute to lens opacity in patients with common, less fulminant forms of cataracts.
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PMID:Functional impairment of lens aquaporin in two families with dominantly inherited cataracts. 1100 37

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