UMLS:C0086543 - FACTA Search

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

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

Congenital cataract is a heterogeneous disorder. Approximately one third of the cases are hereditary. A large family with autosomal dominant congenital cataract is described here. Clinical examinations showed variable expressivity, but all affected persons were eventually operated, most of them in the first or second decade of life. Linkage relations with a number of polymorphic marker systems were studied, all of them being negative. Among the 21 systems studied were Fy, HP, D16S4 and CRYG. The present autosomal dominant congenital cataract is termed the Volkman cataract, after the ancestor in the pedigree, and is genotypically different from the Marner cataract found in another large Danish pedigree.
...
PMID:Autosomal dominant congenital cataract; linkage relations; clinical and genetic heterogeneity. 154 13

Despite the fact that cataracts constitute the leading cause of blindness worldwide, the mechanisms of lens opacification remain unclear. We recently mapped the aculeiform cataract to the gamma-crystallin locus (CRYG) on chromosome 2q33-35, and mutational analysis of the CRYG-genes cluster identified the aculeiform-cataract mutation in exon 2 of gamma-crystallin D (CRYGD). This mutation occurred in a highly conserved amino acid and could be associated with an impaired folding of CRYGD. During our study, we observed that the previously reported Coppock-like-cataract mutation, the first human cataract mutation, in the pseudogene CRYGE represented a polymorphism seen in 23% of our control population. Further analysis of the original Coppock-like-cataract family identified a missense mutation in a highly conserved segment of exon 2 of CRYGC. These mutations were not seen in a large control population. There is no direct evidence, to date, that up-regulation of a pseudogene causes cataracts. To our knowledge, these findings are the first evidence of an involvement of CRYGC and support the role of CRYGD in human cataract formation.
...
PMID:The gamma-crystallins and human cataracts: a puzzle made clearer. 1052 Dec 91

A seven-generation family with 30 members affected by highly variable autosomal dominant zonular pulverulent cataracts has been previously described. We have localized the cataracts to a 19-cM interval on chromosome 2q33-q35 including the gamma-crystallin gene cluster. Maximum lod scores are 4.56 (theta=0.02) with D2S157, 3.66 (theta=0.12) with D2S72, and 3.57 (theta=0.052) with CRYG. Sequencing and allele-specific oligonucleotide analysis of the pseudo gammaE-crystallin promoter region from individuals in the pedigree suggest that activation of the gammaE-crystallin pseudo gene is unlikely to cause the cataracts in the family. In addition, base changes in the TATA box but not the Sp1-binding site have been found in unaffected controls and can be excluded as a sole cause of cataracts. In order to investigate the underlying genetic mechanism of cataracts in this family further, exons of the highly expressed gammaC- and gammaD-crystallin genes have been sequenced. The gammaD-crystallin gene shows no abnormalities, but a 5-bp duplication within exon 2 of the gammaC-crystallin gene has been found in one allele of each affected family member and is absent from both unaffected family members and unaffected controls. This mutation disrupts the reading frame of the gammaC-crystallin coding sequence and is predicted to result in the synthesis of an unstable gammaC-crystallin with 38 amino acids of the first "Greek key" motif followed by 52 random amino acids. This finding suggests that the appropriate association of mutant betagamma-crystallins into oligomers is not necessary to cause cataracts and may give us new insights into the genetic mechanism of cataract formation.
...
PMID:A 5-base insertion in the gammaC-crystallin gene is associated with autosomal dominant variable zonular pulverulent cataract. 1091 83

In Opj, an inherited cataract in mice, opacity is associated with a mutation in Crygs, the gene for gammaS-crystallin, the first mutation to be associated with this gene. A single base change causes replacement of Phe-9, a key hydrophobic residue in the core of the N-terminal domain, by serine. Despite this highly non-conservative change, mutant protein folds normally at low temperature. However, it exhibits a marked, concentration-dependent decrease in solubility, associated with loss of secondary structure, at close to physiological temperatures. This is reminiscent of processes thought to occur in human senile cataracts in which normal proteins become altered and aggregate. The Opj cataract is progressive and more severe in Opj/Opj than in Opj/+. Lens histology shows that whereas fiber cell morphology in Opj/+ mice is essentially normal, in Opj/Opj, cortical fiber cell morphology and the loss of maturing fiber cell nuclei are both severely disrupted from early stages. This may indicate a loss of function of gammaS-crystallin which would be consistent with ideas that members of the betagamma-crystallin superfamily may have roles associated with maintenance of cytoarchitecture.
...
PMID:A temperature-sensitive mutation of Crygs in the murine Opj cataract. 1112 26

gammaS-crystallin is a major human lens protein found in the outer region of the eye lens, where the refractive index is low. Because crystallins are not renewed they acquire post-translational modifications that may perturb stability and solubility. In common with other members of the betagamma-crystallin superfamily, gammaS-crystallin comprises two similar beta-sheet domains. The crystal structure of the C-terminal domain of human gammaS-crystallin has been solved at 2.4 A resolution. The structure shows that in the in vitro expressed protein, the buried cysteines remain reduced. The backbone conformation of the "tyrosine corner" differs from that of other betagamma-crystallins because of deviation from the consensus sequence. The two C-terminal domains in the asymmetric unit are organized about a slightly distorted 2-fold axis to form a dimer with similar geometry to full-length two-domain family members. Two glutamines found in lattice contacts may be important for short range interactions in the lens. An asparagine known to be deamidated in human cataract is located in a highly ordered structural region.
...
PMID:The X-ray crystal structure of human gamma S-crystallin C-terminal domain. 1170 12

Recent results indicate that covalent modification of proteins by tryptophan-derived UV filters may explain the age-dependent coloration of human lenses, and play a role in age-related cataract. The sites of attachment of the UV filters to the lens crystallins, however, have not been determined. This study utilized a database of predicted masses of UV filter-modified tryptic peptides to target sites of UV filter attachment. Proteins were isolated from old normal lenses and digested with trypsin at pH 6, in order to preserve the integrity of the sites of modification. Peptides were separated by high-performance liquid chromatography and characterized by mass spectrometry. Major colored and fluorescent peaks in the digest were found to correspond to cysteine-containing peptides in which the sulfur atom of the sidechain was linked to the major UV filter compound, 3-hydroxykynurenine glucoside. Three of the peptides originated from gammaS-crystallin and one from betaB1-crystallin. These results show that a predicted mass database can be used to facilitate the identification of sites of UV filter modification in human lens crystallins. Furthermore, this work represents the first evidence that UV filters bind to specific residues on lens proteins in vivo, and suggests that sulfhydryl groups may be important sites for the attachment of UV filters.
...
PMID:Identifying sites of attachment of UV filters to proteins in older human lenses. 1198 16

The proteins of the eye lens, which do not turn over throughout life, undergo many modifications, some of which lead to senile cataract. We describe a modification, S-methylation of cysteine, that may serve to protect the lens from detrimental modifications. The modification was detected as a +14 Da peak in electrospray ionization mass spectra of human lens gammaS-crystallins. Derivatization of gammaS-crystallin with iodoacetamide showed reaction at only six of the seven cysteines, indicating the modification blocked reaction at one cysteine. Further analysis of the modified gammaS-crystallin as tryptic peptides located the modification primarily at Cys 26, with smaller amounts at Cys 24. Tandem mass spectrometry and exact mass measurements showed that the modification was S-methylation. Methylation of proteins has been documented at several other amino acid residues, but S-methylation of cysteine residues has previously been detected only as part of a methyltransferase DNA repair mechanism or at trace amounts in hemoglobin. The high levels of S-methylated cysteines in lens nuclei and the specificity for Cys 26 and Cys 24 suggest the reaction is enzymatically mediated. This modification is particularly important because it blocks disulfide bonding of gammaS-crystallins and, thereby, inhibits formation of the high-molecular weight assemblies associated with cataract. Evidence of more S-methylation in soluble than in insoluble gammaS-crystallins supports the contention that S-methylation of gammaS-crystallin inhibits protein insolubilization and may offer protection against cataract.
...
PMID:S-methylated cysteines in human lens gamma S-crystallins. 1247 13

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.
...
PMID:Further genetic heterogeneity for autosomal dominant human sutural cataracts. 1264 46

Loss of protein thiols is a key feature associated with the onset of age-related nuclear cataract (ARNC), however, little is known about the specific sites of oxidation of the crystallins. We investigated cysteine residues in ARNC lenses and compared them with age-matched normal lenses. Proteomic analysis of tryptic digests revealed ten cysteine residues in older normal lenses that showed no significant oxidation compared to foetal counterparts (Cys 170 in betaA1/3-crystallin, Cys 32 in betaA4-crystallin, Cys 79 in betaB1-crystallin, Cys 22, Cys 78/79, C153 in gammaC-crystallin and Cys 22, Cys 24 and Cys 26 in gammaS-crystallin). Although these thiols were not oxidised in normal lenses past the 6th decade, they were present largely as disulphides in the ARNC lenses. By contrast, two cysteine residues, Cys 41 in gammaC-crystallin and Cys 18 in gammaD-crystallin, were not oxidised, even in advanced ARNC lenses. These cysteines are buried deep within the protein and any unfolding associated with cataract must be insufficient to expose them to the oxidative environment present in the centre of advanced ARNC lenses. The vast majority of the loss of protein thiol observed in such lenses is due to disulphide bond formation.
...
PMID:Proteomic analysis of the oxidation of cysteine residues in human age-related nuclear cataract lenses. 1876 Nov 10

GammaS-crystallin, important in maintaining lens transparency, is a monomeric betagamma-crystallin comprising two paired homologous domains, each with two Greek key motifs. An autosomal dominant cortical progressive cataract has been associated with a G18V mutation in human gammaS-crystallin. To investigate the molecular mechanism of this cataract and confirm the causative nature of the G18V mutation, we examined resultant changes in conformation and stability. Human gammaS-crystallin cDNA was cloned into pET-20b(+), and the G18V mutant was generated by site-directed mutagenesis. Recombinant HgammaS-crystallins were expressed in Escherichia coli and purified by ion-exchange and size-exclusion chromatography. By analytical ultracentrifugation wild-type and mutant HgammaS-crystallins are monomers of about 21.95 +/- 0.21 and 20.89 +/- 0.18 kDa, respectively, and have similar secondary structures by far-UV CD. In increasing levels of guanidine hydrochloride (GuHCl), a sharp red shift in fluorescence lambda(max) and increase in emission correlating with exposure of tryptophans to the protein surface are detected earlier in the mutant protein. Under thermal stress, the G18V mutant begins to show changes in tryptophan fluorescence above 42 degrees C and shows a Tm of 65 degrees C as monitored by CD at 218 nm, while wild-type HgammaS-crystallin is very stable with Tm values of 75.5 and 75.0 degrees C as measured by fluorescence and CD, respectively. Equilibrium unfolding/refolding experiments as a function of GuHCl confirm the relative instability of the G18V mutant. Wild-type HgammaS-crystallin exhibits a two-state transition and reversible refolding above 1.0 M GuHCl, but the unfolding transition of mutant HgammaS-crystallin shows an intermediate state. The first transition (N --> I) shows a [GuHCl](1/2) of 0.5 M while the second transition (I --> U) has the same [GuHCl](1/2) as wild-type HgammaS-crystallin, about 2.0 M. Our present study confirms the high stability of wild-type HgammaS-crystallin and demonstrates that the G18V mutation destabilizes the protein toward heat and GuHCl-induced unfolding. These biophysical characteristics are consistent with the progressive cataract formation seen in the family members carrying this mutation.
...
PMID:The G18V CRYGS mutation associated with human cataracts increases gammaS-crystallin sensitivity to thermal and chemical stress. 1955 89

1 2 Next >>