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)

A 7-year-old girl was found to have a progressive axial crystalline cataract located in the embryonal, fetal, and infantile nucleus. She also had the unknown association of crystalline cataract with uncombable hair. Samples of the aspirate after extracapsular cataract extraction (ECCE) showed elongated, trigonal crystals on scanning electron microscopy. On transmission electron microscopy, the crystals were surrounded by a membrane sometimes consisting of up to 30 concentric layers. The crystals were found to contain carbon, oxygen, nitrogen, sulfur, and disulfide bonds. The findings suggest that a major constituent of the crystals was a sulfur-containing aminoacid, probably cystine. Protein analysis of the remaining lens material showed elevated alpha-, beta 2-, and gamma 2- crystallin levels. Analysis of the hair root status showed hair loss in the resting phase of the hair cycle with abnormal sheathing in most hairs that were in the growth phase.
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PMID:Crystalline cataract and uncombable hair. Ultrastructural and biochemical findings. 223 51

The composition and origin of the urea soluble polypeptides which accumulate in the U18666A rat-cataract were studied. Chromatography on Sephacryl S-200 in 7.2 M urea separated the USP into 19-20 and 22-26 kDa enriched fractions. The polypeptide composition of these fractions was probed by immunoblotting of IEF and 2-D electrophoresis gels. The cataract USP largely focused at pHs comparable to alpha- and beta-crystallins. Immunoblotting of 2-D gels showed the USP to be composed predominantly of alpha- and beta-derived crystallins; little gamma-polypeptide was detected in the gels. Some of the insoluble alpha-crystallin appeared to be degraded. Changes in the lens WSP which accompanied the increase in USP were also measured. WSP decreased more than USP increased. Decreases in soluble high molecular weight proteins (alpha- plus beta-crystallins) and medium molecular weight proteins (beta-crystallins) were calculated which together could entirely account for the increased USP. An unexpected decrease in the lens soluble low molecular weight proteins (gamma-crystallins) appeared largely due to the selective leakage of gammas from the lens. The protein content of the ocular humors from eyes with cataracts increased 4 fold and contained polypeptides that focused on IEF like gamma-light crystallin and reacted with the gamma-crystallin antiserum. The cause of the protein insolubilization in the U18666A cataract is unknown but could be partially due to increased aggregation of alpha-crystallins secondary to loss of gamma-crystallins from the lens.
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PMID:On the composition and origin of the urea-soluble polypeptides of the U18666A cataract. 224 43

The cataract produced by the dominant Cat Fraser gene in mouse is associated with quantitative changes in lens proteins (crystallin) and with capsule abnormalities. We have analyzed and compared the protein synthesis in control and mutant lenses using [3H]leucine and [3H]proline incorporation. The specific activities of free [3H]leucine in the intracellular pools of the two mouse strains were identical, while the incorporation of both labelled amino acids in proteins was largely increased in Cat Fraser lens. These data indicate that the higher labelling of Cat Fraser lens proteins reflects a true change in the cellular synthesis activity by Cat Fraser lens cells. Despite the enhanced type IV collagen synthesis by Cat Fraser epithelial cells, the amount of type IV collagen in Cat Fraser capsule is lower than in control. This altered type-IV collagen metabolism may disturb the structure of Cat Fraser capsule which becomes thicker.
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PMID:Analysis of lens protein synthesis in a cataractous mutant mouse: the Cat Fraser. 224 25

To assess the effect of aspirin on cataractogenesis, we compared the stability of individual, native protein fractions alpha L, beta H, beta L, beta s, beta B2, gamma-II, gamma-III and gamma-IV with that of their acetylated counterparts. The conformational stabilities of native fractions beta B2 and beta s, which were not reported earlier, were determined first from their thermal and a thermal denaturation behaviour. Since alpha L, beta H and beta L fractions are oligomeric, no thermodynamic analysis of these fractions was attempted. The thermal stability of beta s and beta B2 is rather low; their melting temperature (T1/2) range is 58-60 degrees C compared with 67-75 degrees C for the gamma-crystallins. Furthermore, except for alpha L, which remains stable even at 100 degrees C, and beta B2, all crystallins aggregate at temperatures slightly above T1/2. The Gibbs free energy of unfolding, delta GH2OD, calculated from guanidine HCl (GdnHCl) denaturation, is surprising low (3-9 kcal mol-1) for all crystallin fractions. The low values of delta GH2OD indicate that the structural destabilization of these proteins, which may lead to cataract formation, could result from a slight disturbance of a particular kind (sugar, UV light, oxidation, and other factors). The overall effect of acetylation on the individual crystallin fractions is mixed. The thermal stability of beta B2 increased, tended to decrease in the case of gamma-crystallins, but remained virtually unchanged for other proteins. Delta GH2OD values of the native crystallin fractions do not differ significantly from those of their acetylated counterparts.
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PMID:Effect of acetylation by aspirin on the thermodynamic stability of lens crystallins. 226 81

The rotational diffusion behavior of phosphorus metabolites present in calf lens cortical and nuclear homogenates was investigated by the NMR technique of 31P off-resonance rotating frame spin-lattice relaxation as a means of assessing the occurrence and extent of phosphorus metabolite-lens protein interactions. 31P NMR spectra of calf lens homogenates were obtained at 10 and 18 degrees C (below and above the cold cataract phase transition temperature, respectively) at 7.05 T. Effective rotational correlation times (tau 0,eff) for the major phosphorus metabolites present in cortical and nuclear bovine calf lens homogenates were derived from nonlinear least-squares analysis of R vs omega e (spectral intensity ratio vs precessional frequency about the effective field) data with the assumption of isotropic reorientational motion. Intramolecular dipole-dipole (1H-31P, 31P-31P), chemical shift anisotropy (CSA), and solvent (water) translational intermolecular dipole-dipole (1H-31P) relaxation contributions were assumed in the analyses. In those cases where the limiting value of the spectral intensity ratio failed to reach unity at large offset frequency, a modified formalism incorporating chemical exchange mediated saturation transfer between two sites was used. Values of tau 0,eff for phosphorus metabolites present in the cortex varied from a low of ca. 2 ns [L-alpha-glycero-phosphocholine (GPC)] to a high of 12 ns (alpha-ATP) at 10 degrees C, whereas at 18 degrees C the range was from ca. 1 to 9 ns. For the nucleus the tau 0,eff values ranged from ca. 3 ns (GPC) to 41 ns (Pi) at 10 degrees C; at 18 degrees C the corresponding values ranged from 4 to 39 ns. For PME (phosphomonoester; in lens the predominant metabolite is L-alpha-glycerol phosphate) at 18 degrees C evidence was obtained for binding and subsequent exchange with solid like protein domains. The diversity in tau 0,eff values for lenticular phosphorus metabolites is suggestive of differential binding to more slowly tumbling macromolecular species, most likely lens crystallin proteins. Corresponding measurement of tau 0,eff values for the mobile protein fraction present in calf lens cortical and nuclear homogenates at 10 and 18 degrees C, by 13C off-resonance rotating frame spin-lattice relaxation, provided average macromolecular correlation times that were assumed to represent the bound metabolite state. A fast-exchange model (on the T1 time scale), between free and bound forms, was employed in the analysis of the metabolite R vs omega e curves to yield the
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PMID:Off-resonance rotating frame spin-lattice NMR relaxation studies of phosphorus metabolite rotational diffusion in bovine lens homogenates. 227 17

The conformational stabilities of bovine lens gamma-crystallin fractions II, IIIA, IIIB, and IVA and those modified with glutathione were compared by studying the thermal and guanidine hydrochloride (Gdn-HCl) denaturation behavior. The conformational state was monitored by both far-UV CD and fluorescence measurements. All the gamma-crystallins studied showed a sigmoidal order-disorder transition with varied melting temperatures. The thermal denaturation of these proteins is reversible up to a temperature 3 or 4 degrees C above T 1/2; above this temperature, irreversible aggregation occurs. The validity of a two-state approximation of both thermal and Gdn-HCl denaturation was tested for all four crystallins, and the presence of one or more intermediates was evident in the unfolding of IVA. delta GDH2O values of these crystallins range from 4 to 9 kcal/mol. Upon glutathione treatment IVA showed the maximum decrease in T 1/2 by approximately 9 degrees C and in delta GDH2O value by 29%; the smallest decrease in T 1/2 was for IIIA by 2 degrees C and in delta GDH2O by 15%. We have demonstrated that the glutathione reaction can dramatically reduce the conformational stability of gamma-crystallins and, thus, that the thermodynamic quantities of the unreacted crystallins can be used to evaluate the stability of these proteins when modified during cataract formation.
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PMID:Thermodynamics of thermal and athermal denaturation of gamma-crystallins: changes in conformational stability upon glutathione reaction. 230 85

Congenital nuclear cataracts transmitted by an autosomal dominant gene are present in a line of strain 13/N guinea-pigs. Studies on the lens proteins from these animals demonstrate changes in both the composition and structure of the crystallins relative to normal controls. The most prominent difference is in the zeta-crystallin, a taxon-specific crystallin which has been shown to be related to the alcohol dehydrogenases. In animals homozygous for the cataract phenotype the normal zeta-crystallin polypeptide is absent from the lens. Quantitation is difficult in the cataractous lenses from heterozygotes because of protein changes secondary to opacification: however in liver and kidney which have catalytic levels of the protein, the concentrations are approximately half that present in tissue from normal control animals. These findings suggest that in the cataractous animals a mutation has occurred in the gene for zeta-crystallin. In addition, a novel protein which is very similar to zeta-crystallin is synthesized only in the lenses of animals with cataract. This protein appears to be the product of the mutant gene for zeta-crystallin. These data support the hypothesis that this hereditary congenital cataract results from a specific mutation in the zeta-crystallin gene.
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PMID:Association of hereditary cataracts in strain 13/N guinea-pigs with mutation of the gene for zeta-crystallin. 231 75

Proteasome, a high molecular weight protease complex (HMP, approximately 600 kDa) was isolated from bovine eye lens epithelium tissue. In contrast with prior reports, lens proteasome degraded the major lens protein alpha-crystallin and S-carboxymethylated bovine serum albumin at 37 degrees C, mostly to trichloroacetic acid precipitable polypeptides. The proteasome, thus isolated, was labile at 55 degrees C. As indicated by the ability of p-chloromercuribenzoate and N-ethylmaleimide to block activity, a thiol group is required for activity. Alpha-crystallin was oxidized by exposure to 60Co-irradiation under an atmosphere of N2O (1-50 kilorads). This dose delivered 0.1-5.7 mol of hydroxyl radicals per mol of crystallin. Irradiation resulted in increased heterogeneity, aggregation, and fragmentation of the crystallin preparation. The proteolytic susceptibility of alpha-crystallin to the lens HMP was enhanced by the irradiation in a dose-dependent manner up to 20 kilorads (.OH concentration up to 2.3 mol per mol of alpha-crystallin). When 50 kilorads (5.7 mol .OH per mol of alpha-crystallin) was used, there was extensive aggregation and no enhancement in proteolysis over the unirradiated sample. The data indicate that the lens HMP can degrade mildly photooxidized lens proteins, but proteins which are extensively damaged are not degraded and may accumulate. This may be related to cataract formation.
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PMID:Lens proteasome shows enhanced rates of degradation of hydroxyl radical modified alpha-crystallin. 234 Oct 52

Nop, a spontaneous murine dominant cataract mutation, was detected by slit lamp investigations and preliminary characterized as a nuclear opacity. Histological investigations confirmed these findings and revealed additionally polar cataracts with vacuolization. In contrast to wild-type lenses, the nuclei of the cortical cells could also be detected in the area of the lens nucleus in Nop lenses. No other pathological alterations were found in the eyes. Lens wet and dry weights, as well as the content of water-soluble lens proteins, were reduced in heterozygous and homozygous mutants. The body weight was only slightly altered, indicating a rather lens-specific growth retardation. Some parameters concerning the osmotic state of the lens were changed, however, only in the homozygous mutants. Electrophoresis of the water-soluble lens proteins of the mutants revealed either additional bands, not present in the wild types, or bands of overrepresented proteins only slightly present in wild-type lenses. The changes might be related to the reduced amount of gamma-crystallins, which alters the composition of lenticular proteins in the mutants. Northern blots probed with cDNA specific for alpha-, beta- or gamma-crystallin genes suggested a reduced transcription of the gamma-crystallin genes. In contrast, the transcription of alpha- and beta-crystallins appeared to be similar in wild type and the mutants. The selective reduced amount of gamma-crystallin specific RNA can be discussed as a biochemical indicator for the histologically observed changes of differentiation in the cataractous Nop lenses.
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PMID:Histological and biochemical characterization of the murine cataract mutant Nop. 237 48

An altered beta B2-crystallin is synthesized in the lens of the Philly mouse. This beta B2 has a more acidic isoelectric point than the beta B2 that is isolated from normal mouse lens. The altered beta B2 is immunologically reactive with antibody to the amino terminal of the beta B2-crystallin, but appears to be present in only very small quantities in the Philly lens. When the soluble proteins are isolated from the Philly lens and chromatographed by gel exclusion chromatography, the beta B2 can be found primarily in the heavy molecular weight fraction. Some immunoreactive material was also found throughout the higher molecular weight beta-crystallin region, beta H, and the lower molecular weight region, beta L. These results would indicate that the altered beta B2-crystallin in the Philly lens can interact with the other beta-crystallins in the lens; however, interactions of the beta B2-crystallin with the other proteins of the lens may cause rapid aggregation of the cellular proteins leading to the formation of the heavy molecular weight material. The increased number of these aggregates may eventually lead to the cataract formation in the Philly mouse.
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PMID:Interaction of an altered beta-crystallin with other proteins in the Philly mouse lens. 237 62

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