UMLS:C0086543 - FACTA Search

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)

Aqueous humor from children with retinoblastoma obtained at enucleation and from eyes with adult cataracts were assayed with electrochemical liquid chromatography (Model 5500 Coulochem electrode array system) for metabolites of tyrosine, tryptophan metabolic pathways, catecholamine degradation pathways and ascorbate. More than 20 metabolites were identified in human aqueous for the first time. High levels of ascorbate were found in aqueous of eyes with adult cataracts (254, 336 ng/ml). Tyrosine metabolism in both sets of eyes was through dopamine. Vandylmandelic acid (VMA), homovanillic acid (HVA), and 3-methoxy, 4-hydroxyphenylglycol (MHPG) were all detected in retinoblastoma eyes. Although eyes with either adult cataracts or childhood retinoblastoma convert tryptophan through the serotonin pathway, retinoblastoma eyes metabolize tryptophan through the kynurenine pathway to a greater degree than adult cataract eyes.
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PMID:Retinoblastoma aqueous humor: aromatic amino acids. 811 19

The autoxidation and reactivity towards proteins of 3-hydroxykynurenine, a tryptophan metabolite found in the human lens, has been studied. At neutral pH, 3-hydroxykynurenine was readily oxidized using molecular oxygen with the formation of several coloured products. The autoxidation of both 3-hydroxykynurenine and the related aminophenol, 3-hydroxyanthranilic acid, was inhibited by the inclusion of sulphydryl compounds such as glutathione or cysteine. Covalent adducts involving the thiols were not observed with either aminophenol. 3-Hydroxykynurenine was found to react with proteins, including lens proteins, to produce brown-coloured polypeptides characterized by an indistinct long wavelength absorption. This protein tanning was inhibited by glutathione. Despite the presence of an amino group in the side chain of 3-hydroxykynurenine, this tanning of proteins was found to involve amino groups including those of lysine residues, as has been found for 3-hydroxyanthranilic acid. Although both aminophenols tanned polylysine, only 3-hydroxykynurenine induced precipitation of the polyamino acid. 3-Hydroxykynurenine tanned all of the purified crystallins but induced precipitation only in the case of alpha A-crystallin. The implications of these findings for senile cataract are discussed.
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PMID:The modification of proteins by 3-hydroxykynurenine. 840 81

Glycation, which begins with the spontaneous reaction between sugar and proteins by the formation of Schiff bases, is known to especially damage long-lived proteins such as lens crystallins, and has been implicated in the ageing process and particularly in cataract formation. In this study of human senile cataract, a specific method is used to measure the formation of Amadori compounds in control postmortem and cataractous lenses, but no difference was found. However, the fluorescence of proteins at 430 nm (exc 350 nm), which has been attributed to advanced glycation, increased with normal ageing of the lens (cortex versus nucleus, and as a function of subject's age for each type of fibres) and was further enhanced in cataractous lenses. The precise molecular origin of this fluorescence remains to be elucidated. In parallel to the accumulation of non-tryptophan fluorophores, a decrease in the membrane fluidity was observed with lens ageing and more acutely with cataract. Both parameters are positively correlated (P < 1%). The modification of the membrane structure with glycation could explain the strong permeability changes occurring during cataract, measured here in terms of cation concentration and inositol leakage, as shown by the negative relationship between the fluorescence signal and the sodium to potassium ratio or the inositol level.
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PMID:Relationship between lens protein glycation and membrane structure in human cataract. 847 88

1. Cataract is the single major cause of blindness worldwide; however, the reasons for the development of this condition remain unknown. It has been suggested that the essential amino acid tryptophan may be implicated in the aetiology but definitive evidence has been lacking. 2. The serum levels of tryptophan and seven of its metabolites have been measured in both cataract patients and control subjects, after administration of tryptophan, in order to determine the typical response profile and to discover whether differences could be found in tryptophan metabolism in the two groups. 3. Tryptophan, kynurenine, kynurenic acid, xanthurenic acid, 3-hydroxyanthranilic acid, 5-hydroxyanthranilic acid, 5-hydroxytryptophan and anthranilic acid were measured by HPLC with dual electrochemical and programmable wavelength fluorescence detection. Fasting cataract patients (n = 42) and control subjects (n = 37) were given an oral dose of L-tryptophan and sera were sampled at 0, 1, 2, 4 and 6 h. 4. Statistically significant differences in the distribution of data between the two groups were observed. The responses of kynurenine and 5-hydroxyanthranilic acid were higher in cataract patients, but those of kynurenic acid and total tryptophan were lower than in control subjects. No statistically significant differences in free tryptophan, anthranilic acid, 3-hydroxyanthranilic acid, xanthurenic acid or 5-hydroxytryptophan levels were noted. 5. We conclude that there is a major subgroup of age-related cataract patients with a dysfunction in the metabolism of tryptophan. This may be related to the onset of cataract. The mechanism remains to be established but may operate via the action of tryptophan metabolites, such as 5-hydroxyanthranilic acid, which become reactive towards protein upon oxidation.
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PMID:Relationship between serum tryptophan and tryptophan metabolite levels after tryptophan ingestion in normal subjects and age-related cataract patients. 854 77

We compared the concentrations of protein-unbound non-tryptophan fluorescent substances in the water-soluble fraction between non-brunescent (NBr) and brunescent (Br) human cataractous lens nuclei. Lens nuclei (NBr, 22 eyes: Br, 9 eyes) from non-diabetic patients, obtained by extracapsular cataract extraction, were individually homogenized and centrifuged. The supernatants were subsequently ultra-dialyzed and assessed by high pressure liquid chromatography. 3-Hydroxykynurenine-O-beta-glucoside (3-HKG) as well as an unidentified fluorescent substance was detected. While the concentrations of the former substance did not significantly differ between the NBr and the Br nuclei (NBr, 0.55 +/- 0.49 mumol/g wet weight: Br, 0.90 +/- 0.64 mumol/g wet weight; p > 0.1), the concentration of the latter substance was significantly greater in the Br nuclei than in the NBr nuclei (NBr, 2.2 x 10(3) +/- 5.4 x 10(3) AU/g wet weight: Br, 1.4 x 10(5) +/- 1.1 x 10(5) AU/g wet weight; AU: area unit, p < 0.01). An incubation of the dialysate with beta-glucosidase eliminated the peak corresponding to the latter substance. These results suggest that an unidentified protein-unbound fluorescent substance, which is presumably a beta-glucoside, in the lens nuclei is related to the coloration of human lens nuclei.
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PMID:[Comparison of free non-tryptophan fluorescent substances in water-soluble fraction of brunescent and non-brunescent human cataract]. 865 Oct 55

One of the major protein components of the ocular lens, alpha-crystallin, is composed of alphaA and alphaB chain subunits that have structural homology to the family of mammalian small heat shock proteins. Like other small heat shock proteins, alpha-crystallin subunits associate to form large oligomeric aggregates that express chaperone-like activity, as defined by the ability to suppress nonspecific aggregation of proteins destabilized by treatment with a variety of denaturants including heat, UV irradiation, and chemical modification. It has been proposed that age-related loss of sequences at the C terminus of the alphaA chain subunit may be a factor in the pathogenesis of cataract due to diminished capacity of the truncated crystallin to protect against nonspecific aggregation of lens proteins. To evaluate the functional consequences of alpha-crystallin modification, two mutant forms of alphaA subunits were prepared by site-directed mutagenesis. Like wild type (WT), aggregates of approximately 540 kDa were formed from a tryptophan-free alphaA mutant (W9F). When added in stoichiometric amounts, both WT and W9F subunits completely suppressed the heat-induced aggregation of aldose reductase. In contrast, subunits encoded by a truncation mutant in which the C-terminal 17 residues were deleted (R157STOP), despite having spectroscopic properties similar to WT, formed much larger aggregates with a marked reduction in chaperone-like activity. Similar results were observed when the chaperone-like activity was assessed through inhibition of gamma-crystallin aggregation induced by singlet oxygen. These results demonstrate that the structurally conservative substitution of Phe for Trp-9 has a negligible effect on the functional interaction of alphaA subunits, and that deletion of C-terminal sequences from the alphaA subunit results in substantial loss of chaperone-like activity, despite overall preservation of secondary structure.
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PMID:Cloning, expression, and chaperone-like activity of human alphaA-crystallin. 894 44

3-Hydroxykynurenine (3OHKyn), present as a human lens UV filter, has also been implicated as a carcinogen and neurotoxin. It has been suggested that oxidation of 3OHKyn is involved in each of these effects. In the presence of oxygen, 3OHKyn has been found to react with bovine crystallins, to give brown-coloured products (Stutchbury and Truscott, 1993). In this study the roles of UV-light, pH, glutathione and oxygen were examined, with the objective of determining how these factors may affect the binding of 3OHKyn to crystallins under the conditions found within the lens itself. The presence of oxygen was found to be an important parameter for determining the extent to which 3OHKyn reacts with protein, and when it was totally excluded, little modification was observed. UV-light was not required for activation, but was found to augment the extent of modification and cross-linking, while an elevated pH, which is known to accelerate the rate of 3OHKyn oxidation, did not markedly increase the extent of reaction with the crystallins. 3OHKyn binding was accompanied by crystallin aggregation, pigmentation, and development of non-tryptophan fluorescence, all of which have been associated with cataract formation. The inclusion of glutathione, a ubiquitous antioxidant, in reaction mixtures resulted in a delayed onset of crystallin modification. This effect was apparent at concentrations of glutathione greater than 1 mM. When glutathione levels fell below 1 mM, crystallins became modified by 3OHKyn. Since lens glutathione concentrations decrease with age, and are known to be lower in the lens nucleus than the cortex, this region appears particularly vulnerable to modification by this UV filter. Thus, whilst the other human lens UV filters, kynurenine (Kyn) and 3-hydroxykynurenine glucoside (3HKG), appear to require activation by UV-light in order to react with proteins, 3OHKyn can modify crystallins in the absence of light, under conditions of low oxygen tension, and in the presence of glutathione concentrations found in the nucleus of an aged lens. Its reactivity is increased in the presence of both light and oxygen. The contributions of these parameters to the reactivity of 3OHKyn are discussed, with respect to the aetiology of senile nuclear cataract.
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PMID:Oxidation products of 3-hydroxykynurenine bind to lens proteins: relevance for nuclear cataract. 924 3

A quantitative estimation of surface accessibility of aromatic residues in alpha-crystallin from goat lens has been accomplished by chemical modifications using different specific reagents having varying sizes. Results of modification of tyrosine residues with N-acetylimidazole and tetranitromethane when combined with those of ionization studies carried out with hydroxyl ions having the smallest size reveal different classes of tyrosine residues in the native protein: 78 +/- 2 residues have been found to be easily available for modification; among the rest, 94 +/- 2 residues appear to be comparatively less exposed to the reagents while 28 +/- 2 residues are found to be completely unavailable for modification in the native protein and are modified only when the protein is denatured. Modification of tryptophan residues with H2O2 also indicates different classes of these residues available for oxidation at different concentrations of the oxidant. 34 +/- 2 residues of tryptophan are found to be easily oxidized at a lower concentration of H2O2 during the first phase of the reaction. The remaining tryptophan residues appear to be less exposed to the reagent. This is also corroborated from the studies of reactivities of these residues towards another specific but bulkier reagent, 2-hydroxy-5-nitrobenzyl bromide. These surface exposed aromatic residues in alpha-crystallin may be considered to be vulnerable to in vivo oxidative modifications forming insoluble aggregates which may finally contribute to the formation of cataract.
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PMID:Chemical modifications and dissociation characteristics of tyrosine and tryptophan residues in alpha-crystallin. 959 22

Cataract formation is believed to result from an oxidative insult which decreases the antioxidant defense of the lens, particularly the vitamin C concentration. Upon oxidation, vitamin C contributes with glucose to protein glycation. It also favours tryptophan oxidation, resulting in fluorescent peptide cross-links and protein insolubilisation. The relationship between cataract and lenticular vitamin C was analysed in 48 cataractous lens nuclei classified into four severity grades, considering the sum of the colour and opacity. Ascorbic and dehydroascorbic acids were quantified by HPLC-fluorescence. The Amadori product was measured by means of furosine, advanced glycation end products by their fluorescence and tryptophan concentration by HPLC-UV. The lens vitamin C concentration significantly decreased with cataract severity, but mostly in severe brown cataracts (around 88 mumol/100 g lens in mild cataracts, and 50 mumol/100 g in dark brown lenses). The dehydroascorbic acid concentration was always low and stable (1.9 +/- 0.9 mumol/100 g), as was the furosine concentration (0.4 +/- 0.1 mumol/g). The fluorescence of insoluble advanced glycated end products was significantly higher in severe cataracts than in milder ones. The peptide tryptophan content was stable but the tryptophan to tyrosine ratio decreased and was highly correlated to the ascorbic acid concentration. Vitamin C content appears to be a good indicator of cataract severity, suggesting that oxidation could take part in cataract progression.
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PMID:Decrease in vitamin C concentration in human lenses during cataract progression. 978 63

Compounds capable of inhibiting protein aggregation may find pharmacological applications in the treatment of a number of diseases called protein condensation diseases [Benedek (1997)], which include cataract, biliary and urinary lithiasis and certain rheumatic diseases. We examined the effect of selected compounds on heat-induced aggregation human serum albumin (HSA), IgG and lysozyme. HSA (0.2% w/v in 0.066 M sodium phosphate pH 5.3 at 22 degrees C), IgG (0.5% w/v in 0.066 M Tris pH 8.0 at 22 degrees C), and L (0.2 % w/v in 0.066 M CAPS pH 11.0 at 22 degrees C) were heated for 30 min at 70 degrees C in the presence or absence of different concentrations of the substance under examination and heat-induced aggregation of 100 microl aliquots was evaluated by measuring the absorbance at 595 nm using an automatic microplate reader. In these conditions, inhibition of aggregation could be due to an anti-denaturant effect or to interferences with the aggregation of denatured molecules, as previously described [Saso, Casini et al. (1998)]. However, this distinction may not be pharmacologically relevant when the target of the therapy is the prevention of abnormal phenomena of protein aggregation. Inorganic salts like NaCl and CaCl2 were active on the three proteins (IgG > HSA > L) but many ligands of HSA such as tryptophan, N-acetyl-tryptophan, caprylic acid, capric acid, cholic acid, deoxycholic acid, chenodeoxycholic acid, lithocholic acid and bendazac were active on their carrier but not on IgG and L, indicating that the latter proteins are more difficult to protect and that specific anti-denaturant and/or anti-aggregant compounds should be developed.
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PMID:Effect of selected substances on heat-induced aggregation of albumin, IgG and lysozyme. 992 Mar 43

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