Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

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

We present a family with congenital cataract with, in some cases, mental retardation and emotional instability, but intellectual deterioration in all affected members. The latter was accompanied by psychosis in some. The inheritance is most likely autosomal dominant, affecting two generations and consisting of a congenitally blind parent and 6 of 11 of her offspring. In addition to these features, some affected individuals had dysphagia and movement disorder, especially choreiform movements. They all showed small body mass, due possibly to poor nutrition from dysphagia. The pathological findings were unique, demonstrating selective atrophy of the granule cell layer of the dentate gyrus. There was selective expression in paraffin-embedded sections of alpha B-crystallin (CRYA2) in oligodendroglia in all areas of the nervous system examined. alpha B-Crystallin is a major optic lens protein but also a heat shock protein and molecular chaperone found in brain and a number of other tissues. Because of the association of congenital cataract and the accumulation in oligodendroglia of alpha B-crystallin, the gene for this protein was sequenced for possible mutation. No mutation was found indicating other genetic locus. This family appears to have a newly recognized genetic disorder.
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PMID:A familial syndrome of congenital cataract, mental impairment, and dentate gyrus atrophy. 912 9

The proteins of the lens which become insoluble, crosslinked and coloured as a result of the onset of human nuclear cataract have been studied using a combination of enzymatic digestion and HPLC/mass spectrometry (MS). The objective was to determine if such an approach could provide information on the identities of the polypeptide components involved in the colouration and crosslinking and to discover whether any crystallins predominate in this characteristic post-translational modification process. Initially, coloured high molecular weight peptides were isolated from a tryptic/chymotryptic digest of the 6 M guanidine hydrochloride-insoluble lens protein fraction. These tryptic/chymotryptic peptides were then incubated with pronase and the small peptides released, purified by gel filtration. All but one of the peptides analysed by HPLC/MS/MS were found to contain proline. Peptides derived from alpha-crystallin were found to comprise the great majority of the peptides characterised. No gamma-crystallin peptides were observed. Both alpha A-crystallin and alpha B-crystallin were represented. Further, all but one of these peptides were derived from the N-terminal region of the alpha-crystallin subunits: a region recently implicated in the chaperone activity of alpha-crystallin. This finding suggests that the putative N-terminal domain of alpha-crystallin may be involved at the molecular level in the process of crosslinking and colouration which is known to be characteristic of age-related nuclear cataract. It is, therefore, conceivable that an early stage of these cataractous modifications may involve alpha-crystallin acting as a molecular chaperone.
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PMID:Molecular evidence for the involvement of alpha crystallin in the colouration/crosslinking of crystallins in age-related nuclear cataract. 944 7

The aim of this study was to determine if the unusual coloured species characteristic of age-related nuclear cataract could be localised to specific residues of the crystallins. The insoluble, crosslinked and coloured cataract protein fraction (CPF) was isolated from cataract human lenses. Using a combination of tryptic digestion, gel filtration and multiple reversed phase high performance liquid chromatography (RP-HPLC), coloured peaks were isolated and subjected to amino acid sequence analysis. With these techniques, it was hoped to identify and locate the modified residues. Sequence information was obtained on 16 'coloured' peptides. Many of the peptides were found to be derived from alpha B-crystallin. When redundancies are taken into account, six distinctive peptides were found to be derived from alpha B-crystallin; one from beta B1-crystallin, two from beta A3/A1-crystallin and three from gamma S-crystallin. Three sites of possible crystallin residue isomerisation to modification were detected in the alpha B- and beta A3/beta A1-crystallins, including probable asp isomerisation at residues 25 and 36 in alpha B-crystallin. Since the CPF is unique to nuclear cataract lenses, these data suggest that alpha-crystallin, and alpha B-crystallin in particular, may be implicated in the cataract process. This finding supports that of a recent study on cataract proteins using pronase digestion [Chen YC, Reid GE, Simpson RJ, Truscott RJW. Exp Eye Res 1997;65:835.]
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PMID:Evidence for the participation of alpha B-crystallin in human age-related nuclear cataract. 965 87

alpha-Crystallin is a major lens protein, comprising up to 40% of total lens proteins, where its structural function is to assist in maintaining the proper refractive index in the lens. In addition to its structural role, it has been shown to function in a chaperone-like manner. The chaperone-like function of alpha-crystallin will help prevent the formation of large light-scattering aggregates and possibly cataract. In the lens, alpha-crystallin is a polydisperse molecule consisting of a 3:1 ratio of alpha A to alpha B subunits. In this study, we expressed recombinant alpha A- and alpha B-crystallin in E. coli and compared the polydispersity, structure and aggregation state between each other and native bovine lens alpha-crystallin. Using gel permeation chromatography to assay for polydispersity, we found native alpha-crystallin to be significantly more polydisperse than either recombinant alpha A- or alpha B-crystallin, with alpha B-crystallin having the most homogeneous structure of the three. Reconstructed images of alpha B-crystallin obtained with cryo-electron microscopy support the concept that alpha B-crystallin is an extremely dynamic molecule and demonstrated that it has a hollow interior. Interestingly, we present evidence that native alpha-crystallin is significantly more thermally stable than either alpha A- or alpha B-crystallin alone. In fact, our experiments suggest that a 3:1 ratio of alpha A to alpha B subunit composition in an alpha-crystallin molecule is optimal in terms of thermal stability. This fascinating result explains the stoichiometric ratios of alpha A- and alpha B-crystallin subunits in the mammalian lens.
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PMID:Lens alpha-crystallin: function and structure. 1062 17

The alpha-crystallin is a major structural protein within the lens and consists of two types of subunit, alpha A and alpha B. These subunits propose a model for the quaternary structure of alpha-crystallin. It has been known for many years that its main function is to serve as a structural and refractive elements in lens. Until 1992, Horwitz suggested that alpha-crystallin could act in a chaperone-like manner. Many studies have showed that alpha-crystallin can protect enzymes and other crystallins against both chemically- and thermally-induced inactivation or aggregation, which may play an important role in maintaining transparency of lens. A polypeptide sequence of alpha A-crystallin or extension of alpha B-crystallin in C-terminal-region and hydrophobic N-terminal-region are all essential for chaperone function. A decrease in chaperone activity from nuclear crystallin has been showed in age-dependent fashion. Post-translational modifications occurring to alpha-crystallin with increasing age and during cataract formation may decrease the chaperone activity of alpha-crystallin to different extent, resulting in an increase in other crystallins aggregation and enzymes inactivation. Therefore, these aggregates will increase scattering of light and lead to lens opacification. Development of protective agents for molecular chaperone activity of alpha-crystallin, in conjunction with knowledge of decreasing post-translational modifications, could potentially lead to a new field for the research on pathogenesis and clinical treatment of cataract.
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PMID:[The recent progress on the role of alpha-crystallin as a molecular chaperone in cataractogenesis]. 1257 12

The T5P mutation in human gamma C-crystallin produces a lens cataract. Here, we have investigated the effects of the T5P mutation upon the aggregation of gamma C-crystallin in vitro and in transfected cells. By sedimentation assay and sucrose gradient centrifugation, the mutation significantly increased the aggregation of the protein and reduced dramatically its solubility in vitro. Similar effects were seen when T5P gamma C-crystallin was transfected into tissue culture cells, resulting in the formation of cytoplasmic aggregates of T5P gamma C-crystallin. Interestingly, the major lenticular protein chaperones, alpha A- and alpha B-crystallin, increased the solubility of the T5P gamma C-crystallin both in vitro and in transfected cells. More importantly, the size of the T5P gamma C-crystallin aggregates were also significantly reduced in the presence of the lenticular chaperones. These data therefore suggest a dual role for these chaperones in maintaining transparency in the lens. The first is that these protein chaperones increase the proportion of the soluble T5P gamma C-crystallin and the second is that they also reduce light scatter by reducing the aggregate size of T5P gamma C-crystallin. Both activities could modify the cataract phenotype and help explain the observed variability reported for identical gamma-crystallin mutations, which identify cataract as a polygenic disease.
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PMID:Lenticular chaperones suppress the aggregation of the cataract-causing mutant T5P gamma C-crystallin. 1630 26

Small Heat Shock Proteins (sHSPs) have important roles in preventing disease and promoting resistance to environmental stressors. Mutations in any one of a number of sHSPs, including HSP27 (HSPB1), HSP22 (HSPB8), alphaA-crystallin (HSPB4), or alphaB-crystallin (HSPB5) can result in neuronal degeneration, myopathy, and/or cataract in humans. Ten sHSPs are known in humans, and thirteen have been identified in teleost fish. Here we report the identification of thirteen zebrafish sHSPs. Using a combination of phylogenetic analysis and analysis of synteny, we have determined that ten are likely orthologs of human sHSPs. We have used quantitative RT-PCR to determine the relative expression levels of all thirteen sHSPs during development and in response to heat shock. Our findings indicate that most of the zebrafish sHSPs are expressed during development, and five of these genes are transcriptionally upregulated by heat shock at one or more stages of development.
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PMID:Genome-wide analysis and expression profiling of the small heat shock proteins in zebrafish. 1788 90

The development of cataracts is a debilitating eye condition which is common in elderly patients and afflicts millions worldwide. Cataracts result from the deposition of aggregated proteins in the eye which causes clouding of the lens, light scattering, and obstruction of vision. Non-syndromic, hereditary human cataract development is linked to point mutations in the CRYAA and CRYAB genes which encode alphaA and alphaB-crystallin. The alpha-crystallins are small heat shock proteins which play central roles in maintaining lens transparency and refractive properties. The discovery in 1992 that these proteins possess chaperone-like activity has led most researchers to focus on the ability of alpha-crystallins to prevent protein aggregation in vitro. While the ability of alpha-crystallins to efficiently trap aggregation-prone denatured proteins in vitro is thought to delay the development of age-related cataracts in vivo, alpha-crystallins have additional functions which may also contribute to cataract pathology. In addition to chaperone activity, alpha-crystallins are known to protect cells from stress-induced apoptosis, regulate cell growth, and enhance genomic stability. They also physically and functionally interact with both the cell membrane and cytoskeleton. Functional changes in alpha-crystallin have been shown to modify membrane and cell-cell interactions and lead to lens cell pathology in vivo. This article focuses on the multiple diverse roles of alphaA-crystallin in the maintenance of lens function and cataract development in vivo.
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PMID:Effects of alpha-crystallin on lens cell function and cataract pathology. 1986 Jun 67

Primary cataracts (CAT) are characterized as any form of opacities of the eye lenses and are not accompanied by other diseases. CAT may impair vision depending on their size, location, and their state of progression. In order to investigate the cause of congenital or juvenile CAT in inbred Angolan lions kept in German zoos, we analyzed the genomic sequences of 4 crystalline genes CRYAA, CRYAB, CRYBB2, and CRYBB1. In addition, 10 CAT candidate genes (GJA3, LIM2, CRYGA, CRYGB, CRYGC, CRYGD CRYGS, BFSP2, CRYBA4, and CRYBB1) were analyzed using adjacent microsatellites. We identified 10 single nucleotide polymorphisms in the Angolan lion crystalline genes and 9 segregating microsatellites. Nonparametric and parametric linkage analyses did not reveal any linkage between one of the analyzed markers and CAT. So, we concluded that these genes can be excluded as causative for the familial primary cataract phenotype in these Angolan lions.
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PMID:Development of feline microsatellites and SNPs for evaluating primary cataract candidate genes as cause for cataract in Angolan lions (Panthera leo bleyenberghi). 2042 16


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