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)

Congenital cataracts are a common major abnormality of the eye that frequently cause blindness in infants. At least one-third of all cases are familial; autosomal-dominant congenital cataract appears to be the most-common familial form in the Western world. Elsewhere, in family ADCC-3, we mapped an autosomal-dominant cataract gene to chromosome 3q21-q22, near the gene that encodes a lens-specific beaded filament protein gene, BFSP2. By sequencing the coding regions of BFSP2, we found that a deletion mutation, DeltaE233, is associated with cataracts in this family. This is the first report of an inherited cataract that is caused by a mutation in a cytoskeletal protein.
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PMID:Autosomal-dominant congenital cataract associated with a deletion mutation in the human beaded filament protein gene BFSP2. 1073 68

Several families of growth factors have been identified as regulators of cell fate in the developing lens. Members of the fibroblast growth factor family are potent inducers of lens fiber differentiation. Members of the transforming growth factor beta (TGFbeta) family, particularly bone morphogenetic proteins, have also been implicated in various stages of lens and ocular development, including lens induction and lens placode formation. However, at later stages of lens development, TGFbeta family members have been shown to induce pathological changes in lens epithelial cells similar to those seen in forms of human subcapsular cataract. Previous studies have shown that type I and type II TGFbeta receptors, in addition to being expressed in the epithelium, are also expressed in patterns consistent with a role in lens fiber differentiation. In this study we have investigated the consequences of disrupting TGFbeta signaling during lens fiber differentiation by using the mouse alphaA-crystallin promoter to overexpress mutant (kinase deficient), dominant-negative forms of either type I or type II TGFbeta receptors in the lens fibers of transgenic mice. Mice expressing these transgenes had pronounced bilateral nuclear cataracts. The phenotype was characterized by attenuated lens fiber elongation in the cortex and disruption of fiber differentiation, culminating in fiber cell apoptosis and degeneration in the lens nucleus. Inhibition of TGFbeta signaling resulted in altered expression patterns of the fiber-specific proteins, alpha-crystallin, filensin, phakinin and MIP. In addition, in an in vitro assay of cell migration, explanted lens cells from transgenic mice showed impaired migration on laminin and a lack of actin filament assembly, compared with cells from wild-type mice. These results indicate that TGFbeta signaling is a key event during fiber differentiation and is required for completion of terminal differentiation.
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PMID:Requirement for TGFbeta receptor signaling during terminal lens fiber differentiation. 1164 Dec 23

Buthionine sulfoximine (BSO), a specific inhibitor of glutathione biosynthesis, induces oxidative cataracts following multiple injections into mice at 1 week of age. Cultures of lenses with (35)S-methionine have previously demonstrated altered patterns of protein biosynthesis that precede and accompany these cataracts. To obtain parallel information about changes in protein phosphorylation during cataract development, lenses from BSO-treated or control mouse pups were cultured for 3 hr at 37 degrees C with (32)P(i), homogenized in phosphate buffer, and resolved by centrifugation into water-soluble (WS) and water-insoluble (WI) fractions. These were characterized by 2D-gel electrophoresis, Coomassie blue staining, phosphorimaging, immunoblotting, and tandem mass spectrometry. Heaviest labelling was in the WI fraction. The labelled 2D-gel spots included: (1) a series of phosphorylated filensins at 95 kDa; (2) a major radioactive spot at 45-50 kDa, slightly anodic to actin and the beaded filament protein, phakinin (CP 49); (3) a phosphorylated betaB1-crystallin, considerably anodic to parent betaB1; (4) an acidic cluster of labelled alphaA-crystallins, phosphorylated in part at serine-148, and (5) a labelled trace alpha crystallin, slightly anodic to alphaB-crystallin. The results confirm previously reported phosphorylations of actin, phakinin, alphaA- and alphaB-crystallin, demonstrate previously unrecognized phosphorylations of filensin and betaB1-crystallin, and provide unequivocal evidence for phosphorylation of alphaA-crystallin at serine-148. The earliest changes in phosphorylation detected after BSO treatment were increased labelling of alphaA- and alphaB-crystallin during cataract stages 1-3, coupled with a general decrease in protein labelling. In stage 5 cataracts, phosphorylated alpha crystallins persisted as the dominant labelled species. However, the major modifications of alphaA-crystallin in advanced BSO cataracts were unlabelled and partially degraded, in contrast to phosphorylated alphaA. It is therefore proposed that phosphorylation of alphaA-crystallin may confer resistance to proteolytic degradation.
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PMID:Altered patterns of phosphorylation in cultured mouse lenses during development of buthionine sulfoximine cataracts. 1238 96

A unique sutural cataract was observed in a 4-generation German family to be transmitted as an isolated autosomal, dominant trait. Since mutations in the gamma-crystallin encoding CRYG genes have previously been demonstrated to be the most frequent reason for isolated congenital cataracts, all 4 active CRYG genes have been sequenced. A single base-pair change in the CRYGA gene has been shown, leading to a premature stop codon. This was not observed in 170 control individuals. However, it did not segregate with the disease phenotype. This is the first truncating mutation in an active CRYG gene without a dominant phenotype. As the CRYGA mutation did not explain the cataract, several other candidate loci (CCV, GJA8, CRYBB2, BFSP2, MIP, GJA8, CENTRAL POUCH-LIKE, CRYBA1) were investigated by microsatellite markers and linkage analysis, but they were excluded based on the combination of haplotype analysis and two-point linkage analysis. The phenotype in this family is due to a mutation in another sutural cataract gene yet to be identified.
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PMID:Further genetic heterogeneity for autosomal dominant human sutural cataracts. 1264 46

The glass-like transparency of the human eye lens is achieved by the tight packing of abundant crystallin proteins. However, the precise role of the accessory non-crystallin proteins is not well understood. We have carried out 2-DE mapping of these proteins in rat lens. This showed the presence of the high molecular weight filamentous structural proteins spectrin, filensin, tubulin, vimentin, actin and phakinin as well as several forms of potential crystallin oligomers comprised of alphaA, betaB1, betaA1 and betaA4 chains. Other proteins that were present include, heat shock protein 71, WD repeat protein 1, and several enzymes including alpha-enolase, pyruvate kinase, transketolase and aldose reductase. 2-D-DIGE analysis revealed several expression differences between the lens proteomes of male and female rats. Female rat lenses contained lower levels of aldose reductase, increased proteolyic fragments of the structural proteins filensin, vimentin and phakinin and higher levels of potential alphaA, betaB1 and betaA1 crystallin oligomers. Taken together these findings suggest that there are potential differences in oxidative stress regulation between male and female rat lenses, which may have implications on susceptibility to cataract formation. Future studies aimed at elucidating pre-cataractic changes in the non-crystallin proteins described here may facilitate identification of novel markers involved in cataractogenesis.
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PMID:Detection of gender differences in rat lens proteins using 2-D-DIGE. 1634 38

Filensin (BFSP1) and CP49 (BFSP2) represent two members of the IF protein superfamily that are thus far exclusively expressed in the eye lens. Mutations in both proteins cause lens cataract and careful consideration of the detail of these cataract phenotypes alerts us to several interesting features concerning the function of filensin (BFSP1) and CP49 (BFSP2) in the lens. With the first filensin (BFSP1) mutation now having been reported to cause a recessive cataract phenotype, there is the suggestion that the mutation could predispose heterozygote carriers to the early onset of age-related nuclear cataract. In the case of CP49 (BFSP2), there are now three unrelated families who have been identified with a common E233 Delta mutation. Very interestingly this is linked to myopia in one family. Despite the apparent phenotypic differences of the filensin (BFSP1) and CP49 (BFSP2) mutations, the data are still consistent with the beaded filament proteins being essential for lens function and specifically contributing to the optical properties of the lens. The fact that none of the mutations thus far reported affect either the conserved LNDR or TYRKLLEGE motifs that flank the central rod domain supports the view that this pair of IF proteins have unusual structural features and a distinctive assembly mechanism. The multiple sequence divergences suggest these proteins have been adapted to the specific functional requirements of lens fibre cells, a function that can be traced from squid to man.
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PMID:Insights into the beaded filament of the eye lens. 1749 Jun 42

Intermediate filaments (IFs) are a key component of the cytoskeleton in virtually all vertebrate cells, including those of the lens of the eye. IFs help integrate individual cells into their respective tissues. This Review focuses on the lens-specific IF proteins beaded filament structural proteins 1 and 2 (BFSP1 and BFSP2) and their role in lens physiology and disease. Evidence generated in studies in both mice and humans suggests a critical role for these proteins and their filamentous polymers in establishing the optical properties of the eye lens and in maintaining its transparency. For instance, mutations in both BFSP1 and BFSP2 cause cataract in humans. We also explore the potential role of BFSP1 and BFSP2 in aging processes in the lens.
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PMID:Functions of the intermediate filament cytoskeleton in the eye lens. 1958 58

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

Congenital cataract is a highly heterogeneous disorder at both the genetic and the clinical-phenotypic levels. A unique cataract was observed in a 4-generation Chinese family, which was characterized by autosomal dominant inheritance and late-onset. Mutations in the 13 known genes (CRYAA, CRYAB, CRYBB1, CRYBB2, CRYGC, CRYBA1/A3, CRYGD, Connexin50, Connexin46, intrinsic membrane protein LIM2, cytoskeletal protein BFSP2, the major intrinsic protein-MIP and the heat shock factor HSF4) have previously been demonstrated to be the frequent reason for isolated congenital cataracts, but the exact molecular basis and underlying mechanisms of congenital cataract still remain unclear. This study was designed to find whether these 13 genes developed any mutation in the family members and to identify the disease-causing gene. Polymerase chain reaction (PCR) and direct DNA sequence analysis were carried out to detect the 13 genes. The results showed that no mutation causing amino acid alternations was found in these potential candidate genes among all patients in the family, and only several single-nucleotide polymorphisms (SNPs) were identified. A transitional mutation in the fourth intron of CRYBB2 and some silent mutations in the first exon of BFSP2 and CRYGD were found in the cataract family, but further study showed that these mutations could also be found in normal controls. It was concluded that some unidentified genes may underlie the occurrence of late-onset cataract in this family. A genome-wide screening will be carried out in the next study.
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PMID:Molecular genetic analysis of autosomal dominant late-onset cataract in a Chinese Family. 2118 74

To detect the underlying genetic defects in two autosomal dominant congenital cataract (ADCC) families, having respectively twenty and four members affected with bilateral congenital cataract. Detailed family history and clinical data were recorded. Mutation screening in twenty three candidate genes including crystallins (CRYAA, CRYAB, CRYBA1/A3, CRYBA2, CRYBA4, CRYBB1, CRYBB2, CRYBB3, CRYGA, CRYGB, CRYGC, CRYGD, and CRYGS), gap junctional channels; connexins (GJA8, GJA3), beaded filament chain proteins (BFSP1, BFSP2), major intrinsic protein (MIP), lens intrinsic membrane protein-2 (LIM2), transcriptional factor (MAF), and in genes encoding for membrane-associated proteins (TMEM114, CHMP4B, EPHA2) was performed by bi-directional sequence analysis of the amplified products. In family A twenty members in six generations were affected by bilateral aculeiform type cataract and in family B four affected members in three generations had granular nuclear cataract. Mutation screening in already known candidate genes by sequence analyses revealed proline to threonine substitution at codon 23 (p.Pro23Thr) in CRYGD for aculeiform type cataract in family A. The family B with four members affected by granular nuclear cataract, however, could not be linked with any of these analyzed 23 candidate genes. The present study describes identification of p.Pro23Thr mutation in CRYGD for aculeiform type cataract in an ADCC family of Indian origin. The identical mutation has previously been reported to be linked with different phenotypes; lamellar cataract, cerulean cataract, coralliform cataract, flaky silica-like nuclear cataract and fasciculiform type cataract in different ADCC families. Interestingly, a mutation of different codon, i.e., p.Arg58His in CRYGD has been reported to be linked with aculeiform cataract in four different families; two from Switzerland, one from Macedonia and in a Mexican family. The findings in present study thus expand the genetic heterogeneity for aculeiform type cataract. Further, exclusion of these twenty three known candidate genes in family B having ADCC of granular nuclear type indicates the role of some other gene apart from for crystallins, gap junction channels, beaded filaments and membrane-associated proteins, and MAF for this phenotype.
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PMID:A missense mutation in CRYGD linked with autosomal dominant congenital cataract of aculeiform type. 2266 29

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