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)

3-Hydroxykynurenine, a metabolite of tryptophan, is a powerful antioxidant and neurotoxin. The neurotoxicity results from the oxidation of 3-hydroxykynurenine, and hydroxyl radicals, formed via H(2)O(2), may also be implicated [Okuda, S., Nishiyama, N., Saito, H. , and Katsuki, H. (1996) Proc. Natl. Acad. Sci. U.S.A. 93, 12553-12558]. Oxidation of o-aminophenols, such as 3-hydroxykynurenine, also results in the formation of highly reactive quinonimines. Thus, one possible consequence of 3-hydroxykynurenine oxidation may be covalent modification of cellular macromolecules. Such a process could contribute to the neurotoxicity and may potentially be important in other tissues, such as the human lens, where 3-hydroxykynurenine functions as a UV filter. In this work, we demonstrate that 3-hydroxykynurenine can bind to protein amino groups and, further, that under oxidative conditions, 3-hydroxykynurenine can function to cross-link polypeptide chains. The structure of the cross-linked moiety, using the peptide glycyllysine, has been elucidated. The cross-link, which is both colored and fluorescent, involves the peptide alpha-amino groups. Proteins modified by 3-hydroxykynurenine become colored and fluorescent as well as cross-linked. LC-MS studies indicate that the cross-link is also present in gamma-crystallin, following incubation of this lens protein in the presence of 3-hydroxykynurenine. Similar posttranslational modifications of lens proteins accompany cataract formation, and knowledge of the precise mode of reaction of 3-hydroxykynurenine with proteins will assist in determining if 3-hydroxykynurenine is involved in degenerative conditions in which oxidation of such aminophenols is implicated.
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PMID:Elucidation of a novel polypeptide cross-link involving 3-hydroxykynurenine. 1047 Dec 97

Recent work has explored the potential deleterious role that nitric oxide (NO) and its derivatives may have in human disease. The many by-products of NO include nitrite ion, which accumulates in the anterior chamber during ocular inflammation and can be derived from cigarette smoking. Cigarette smoking has been strongly linked to nuclear cataract formation, although the mechanism remains unknown. We have previously observed that nitrite reactions with the matrix proteins elastin and collagen produce damaging effects that mimic those observed in age- and smoking-related illnesses. In the present study we report on the reaction of nitrite with alpha crystallin, the major lens matrix protein. Incubations at neutral pH and body temperature of nitrite with alpha crystallin resulted in protein modifications indicative of oxidative damage and similar to changes seen in the aging lens as well as cataracts. These include increased fluorescence, yellowing and protein cross-linking. L-kynurenine, a tryptophan derivative, was identified as a reaction product. L-kynurenine was also formed from the reaction of nitrite with free tryptophan. Thus, this non-enzymatic nitration of alpha crystallin provides a novel mechanism by which lens proteins may be damaged in vivo. Since human exposure to nitrite is increased by cigarette smoking, this reaction could provide an explanation for the association between nuclear cataracts and smoking.
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PMID:The Nitrite/alpha crystallin reaction: a possible mechanism in lens matrix damage. 1064 22

In this review the kinurenin degradation pathway is presented. The role of indoleamine 2.3-dioxygenase (IDO)--the first enzyme of the tryptophan degradation--is also described. The implications of these findings for cataract as well as for other disturbances of vision process are discussed.
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PMID:[Kinurenin degradation pathway in eye: present state of knowledge]. 1078 59

3-Hydroxykynurenine (3OHKyn) is present in the mammalian lens as a UV filter and is formed from kynurenine in the tryptophan metabolic pathway. 3OHKyn is a readily autoxidized o-aminophenol which binds to proteins in vitro. The lens, particularly its central region, the nucleus, becomes increasingly oxidized with age. Under such conditions, the oxidation products of 3OHKyn may bind to lens proteins and contribute to nuclear cataract formation. The purpose of this study was to determine the structures of in vitro reaction products of 3OHKyn with model peptides as a general model for 3OHKyn modification of proteins. 3OHKyn was incubated with the dipeptide glycylglycine (GG) and the tetrapeptide tuftsin (sequence TKPR) under oxidizing conditions, and the reaction products were characterized by a variety of spectroscopic techniques. The major 3OHKyn-GG reaction product involves formation of a benzimidazole moiety between the GG N-terminus and the oxidized amino and/or phenol groups of 3OHKyn. In contrast, tuftsin, which has an N-terminal threonine, forms predominantly a cross-linked dimer with oxidized 3OHKyn. This product is analogous in structure to the dimeric reaction product, quinilinobenzoxamine, formed between oxidized 3OHKyn and glycyllysine [Aquilina, J. A., et al. (1999) Biochemistry 38, 11455-11464], which contains a benzoxazole moiety. The identification of a tuftsin dimer suggests that 3OHKyn can react with any peptide having a free alpha-amino group, via a general side chain elimination mechanism. The identification of both benzimidazole and benzoxazole adducts in peptides with a free N-terminus suggests that peptide amino groups can react initially at either the aromatic amino or hydroxyl group of oxidized 3OHKyn. The proportion of each adduct may change, however, depending on the amino acid sequence at the N-terminus.
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PMID:Polypeptide modification and cross-linking by oxidized 3-hydroxykynurenine. 1112 46

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.
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PMID:Identifying sites of attachment of UV filters to proteins in older human lenses. 1198 16

Cataract is generally associated with the breakdown of the lens microarchitecture. Age-dependent chemical modifications and cross-linking of proteins are the major pathways for development of lens opacity. The specific alterations in lens proteins caused by glycation with four carbonyl metabolites, fructose, methylglyoxal, glyoxal, and ascorbic acid, were investigated. Decrease in intensity of tryptophan related fluorescence and level of reduced protein sulfhydryl groups, parameters that are indicative for changes in protein conformation, were observed after reaction with all studied carbonyl compounds. Protein carbonyl content, an index for oxidative damage to proteins, was strongly enhanced in methylglyoxal-treated proteins. Cross-linking of glycated proteins was confirmed by polyacrylamide electrophoresis. alpha-Oxoaldehydes were the most reactive in protein aggregation. They also formed specific chromophores absorbing UV light above 300 nm. Significant loss in lactate dehydrogenase activity resulted from incubation with methylglyoxal, followed by glyoxal and ascorbic acid. The results obtained showed that alterations in lens proteins do not follow the specific reactivity of studied carbonyl compounds. Despite the similarity in chemical structures of alpha-oxoaldehydes and ascorbic acid degradation products, they cause specific alterations in lens protein structure with different biological consequences.
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PMID:Comparison between modifications of lens proteins resulted from glycation with methylglyoxal, glyoxal, ascorbic acid, and fructose. 1211 14

An autosomal dominant congenital cataract associated with a missense mutation, Arg-116 to Cys (R116C), in the coding sequence of human alphaA-crystallin has been reported. Subsequent study of this mutant, generated by site-directed mutagenesis, showed significant changes in secondary and tertiary structures, partial loss of chaperone activity, and substantially increased oligomeric size. The study presented here aims to show whether these changes are due to the loss of a positive charge at this position or due to the presence of an extra Cys. To show this, Arg-116 in alphaA-crystallin was mutated to Lys (R116K), Cys (R116C), Gly (R116G), and Asp (R116D) and expressed in Escherichia coli cells. The wild-type (alphaA-wt) and mutant proteins were purified by size exclusion chromatography and characterized by measurements of circular dichroism, intrinsic tryptophan fluorescence, and TNS fluorescence and by determination of molecular masses and chaperone function which was assessed as the ability to suppress target protein aggregation or enhance target protein refolding. Mutation of Arg-116 to a Cys or Gly showed very similar changes in structure, oligomerization, and chaperone function which suggest that the presence of this Cys per se is not the cause of the changes. The R116K mutant, on the other hand, had nearly the same structure, oligomeric size, and chaperone function as alphaA-wt, whereas the mutant with an acidic amino acid in this position, R116D, showed drastic changes in protein structure. Thus, a positive charge must be preserved at this position for the structural and functional integrity of alphaA-crystallin.
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PMID:A positive charge preservation at position 116 of alpha A-crystallin is critical for its structural and functional integrity. 1236 32

Recent studies of peptide dimers linked by Trp-Trp (ditryptophan) crosslinks suggest that the crosslinks can reinforce antiparallel beta-structure. Depending on environment, gramicidins A, B and C form either helical ion channels with parallel beta-structure or non-functional pores with antiparallel beta-structure. In the channel conformation of the gramicidins Trp9 and Trp15 are close in space, but in the pore conformation Trp9 and Trp15 are far apart. We hypothesized that a ditryptophan crosslink between Trp9 and Trp15 could pre-organize gramicidin in an active conformation. To test the potential for preorganization, an intramolecular ditryptophan crosslink was formed between Trp9 and Trp15 in a W13F mutant of gramicidin B. Photooxidative conditions were shown to generate ditryptophan crosslinks in low yields. While not preparatively useful, photooxidative tryptophan crosslinking may have implications for protein aging processes like cataract formation. The ditryptophan crosslink in the gramicidin B mutant substantially lowered the antibiotic activity of the gramicidin B mutant, unlike the ditryptophan crosslink in the antibiotic X-indolicidin. The biaryl chromophore generated diagnostic Cotton effects in the CD spectrum that revealed the absolute stereochemistry of the biaryl chromophore, but the biaryl chromophore obscured diagnostic features below 220 nm. However, changes in peptide conformation were reflected in changes in the biaryl region of the CD spectrum above 240 nm.
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PMID:Synthesis and study of a gramicidin B mutant possessing a ditryptophan crosslink. 1237 4

BACKGROUND: Development of steroid cataract is a likely outcome following prolonged exposure to glucocorticoids. It has been suggested that formation of steroid-protein adducts is a key event in this lens opacification. In order to explore this possibility, we have monitored the reaction of bovine lens proteins with glucocorticoids and examined the effects of adduct formation on their structures. METHODS: Bovine lens proteins were incubated with high (10(-4) M) and low (10(-8) M) concentrations of dexamethasone or prednisolone for up to 56 days at 37 degrees Celsius. Changes in molecular size and solubility of the crystallins and their polypeptide subunits were examined using gel permeation chromatography and SDS gel electrophoresis. Conformational changes were assessed with the aid of tryptophan fluorescence spectroscopy and oxidation was monitored by measuring protein sulphydryl content. RESULTS: Covalent incorporation of glucocorticoids was observed for all crystallins with relative reactivities for alpha-: beta-: gamma-crystallin of 20: 5: 1. The maximum incorporated was one steroid molecule per 40 to 50 subunits of alpha-crystallin. The proportions and sizes of the soluble crystallins and their subunits were unchanged. Protein sulphydryl contents decreased by eight to 10 per cent more than controls but no intermolecular disulphide bonds were detected. There were no alterations in tryptophan microenvironments. CONCLUSIONS: Steroids form adducts with lens proteins, in particular alpha-crystallin, but it appears unlikely that this reaction is responsible for steroid cataract formation.
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PMID:Steroid adduct formation with lens crystallins. 1248 87

Human gammaD crystallin (HgammaD-Crys), a major protein of the human eye lens, is a primary component of cataracts. This 174-residue primarily beta-sheet protein is made up of four Greek keys separated into two domains. Mutations in the human gene sequence encoding HgammaD-Crys are implicated in early-onset cataracts in children, and the mutant protein expressed in Escherichia coli exhibits properties that reflect the in vivo pathology. We have characterized the unfolding, refolding, and competing aggregation of human wild-type HgammaD-Crys as a function of guanidinium hydrochloride (GuHCl) concentration at neutral pH and 37 degrees C, using intrinsic tryptophan fluorescence to monitor in vitro folding. Wild-type HgammaD-Crys exhibited reversible refolding above 1.0 M GuHCl. The GuHCl unfolded protein was more fluorescent than its native counterpart despite the absence of metal or ion-tryptophan interactions. Aggregation of refolding intermediates of HgammaD-Crys was observed in both equilibrium and kinetic refolding processes. The aggregation pathway competed with productive refolding at denaturant concentrations below 1.0 M GuHCl, beyond the major conformational transition region. Atomic force microscopy of samples under aggregating conditions revealed the sequential appearance of small nuclei, thin protofibrils, and fiber bundles. The HgammaD-Crys fibrous aggregate species bound bisANS appreciably, indicating the presence of exposed hydrophobic pockets. The mechanism of HgammaD-Crys aggregation may provide clues to understanding age-onset cataract formation in vivo.
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PMID:In vitro unfolding, refolding, and polymerization of human gammaD crystallin, a protein involved in cataract formation. 1259 18


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