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)

The proteins of the lens which become insoluble, crosslinked and coloured as a result of the onset of human nuclear cataract have been studied using a combination of enzymatic digestion and HPLC/mass spectrometry (MS). The objective was to determine if such an approach could provide information on the identities of the polypeptide components involved in the colouration and crosslinking and to discover whether any crystallins predominate in this characteristic post-translational modification process. Initially, coloured high molecular weight peptides were isolated from a tryptic/chymotryptic digest of the 6 M guanidine hydrochloride-insoluble lens protein fraction. These tryptic/chymotryptic peptides were then incubated with pronase and the small peptides released, purified by gel filtration. All but one of the peptides analysed by HPLC/MS/MS were found to contain proline. Peptides derived from alpha-crystallin were found to comprise the great majority of the peptides characterised. No gamma-crystallin peptides were observed. Both alpha A-crystallin and alpha B-crystallin were represented. Further, all but one of these peptides were derived from the N-terminal region of the alpha-crystallin subunits: a region recently implicated in the chaperone activity of alpha-crystallin. This finding suggests that the putative N-terminal domain of alpha-crystallin may be involved at the molecular level in the process of crosslinking and colouration which is known to be characteristic of age-related nuclear cataract. It is, therefore, conceivable that an early stage of these cataractous modifications may involve alpha-crystallin acting as a molecular chaperone.
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PMID:Molecular evidence for the involvement of alpha crystallin in the colouration/crosslinking of crystallins in age-related nuclear cataract. 944 7

delta 1-pyrroline 5-carboxylate synthetase (P5C synthetase) catalyzes the ATP and the NAD(P)H-dependent conversion of L-glutamate to glutamate semialdehyde (GSA) which is the metabolic precursor for proline biosynthesis. We described in two siblings a paradoxical hyperammonemia with hypoprolinemia and hypoornithinemia associated to bilateral cataract, mental retardation, joint laxity and skin hyperelasticity. We cloned human P5C synthetase-cDNA by database cloning strategy: this cDNA has an open reading frame of 2,385 bases coding for a polypeptide of 795 amino acids. Both patients are homozygous for an L396S substitution, this amino acid being highly conserved across species. This is the first report of a P5C synthetase deficiency in human.
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PMID:[A new inherited metabolic disease: delta1-pyrroline 5-carboxylate synthetase deficiency]. 962 38

The eye lens proteins of the mouse were separated into 1940 polypeptide spots by two-dimensional electrophoresis in large gels. All 16 crystallins ubiquitous in mammals were identified by protein sequencing and mass spectrometry except for (gamma)-F, which shows an almost identical sequence with (gamma)-E. Two crystallins, (beta)-A2 and (gamma)-S, were shown for the first time to occur in the mouse lens. An investigation of the murine cataract mutant Cat2(nop)((gamma)-B gene) demonstrated that a monogenic mutation might affect a broad spectrum of proteins.
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PMID:Identification of mouse crystallins in 2D protein patterns by sequencing and mass spectrometry. Application to cataract mutants. 976 94

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

This investigation of the water-insoluble crystallins from human lenses has used multiple chromatographic separations to obtain proteins of sufficient purity for mass spectrometric analysis. Each fraction was analysed to determine the molecular masses of the constituent proteins as well as peptides in tryptic digests of these proteins. The major components of the water-insoluble crystallins were identified as alphaA- and alphaB-crystallins. In addition, gammaS-, betaB1-, gammaD-, betaA3/A1- and betaB2-crystallins were found, in order of decreasing abundance. Although there was evidence of some backbone cleavage, the predominant forms of alphaA-, alphaB, betaB2-, gammaS- and gammaD-crystallins were the intact polypeptide chains. The major modifications distinguishing the water-soluble crystallins were increased disulfide bonding, oxidation of Met, deamidation of Gln and Asn and backbone cleavage. Of the many reactions hypothesized to lead to crystallin insolubility and cataract, these results most strongly support metal-catalysed oxidation, deamidation and truncation as initiators of conformational changes that favor aggregation.
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PMID:The major in vivo modifications of the human water-insoluble lens crystallins are disulfide bonds, deamidation, methionine oxidation and backbone cleavage. 1093 Mar 24

Hyperglycemia leads to vascular disease specific to diabetes mellitus. This pathology, which results from abnormal proliferation of smooth muscle cells in arterial walls, may lead to cataract, renal failure, and atherosclerosis. The hexosamine biosynthetic pathway is exquisitely responsive to glucose concentration and plays an important role in glucose-induced insulin resistance. UDP-GlcNAc: polypeptide O-N-acetylglucosaminyltransferase (O-GlcNAc transferase; OGTase) catalyzes the O-linked attachment of single GlcNAc moieties to serine and threonine residues on many cytosolic or nuclear proteins. Polyclonal antibody against OGTase was used to examine the expression of OGTase in rat aorta and aortic smooth muscle (RASM) cells. OGTase enzymatic activity and expression at the mRNA and protein levels were determined in RASM cells cultured at normal (5 mM) and at high (20 mM) glucose concentrations. OGTase mRNA and protein are expressed in both endothelial cells and smooth muscle cells in the aorta of normal rats. In both cell types, the nucleus is intensely stained, while the cytoplasm stains diffusely. Immunoelectron microscopy shows that OGTase is localized to euchromatin and around the myofilaments of smooth muscle cells. In RASM cells grown in 5 mM glucose, OGTase is also located mainly in the nucleus. Hyperglycemic RASM cells also display a relative increase in OGTase's p78 subunit and an overall increase protein and activity for OGTase. Biochemical analyses show that hyperglycemia qualitatively and quantitatively alters the glycosylation or expression of many O-GlcNAc-modified proteins in the nucleus. These results suggest that the abnormal O-GlcNAc modification of intracellular proteins may be involved in glucose toxicity to vascular tissues.
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PMID:Hyperglycemia and the O-GlcNAc transferase in rat aortic smooth muscle cells: elevated expression and altered patterns of O-GlcNAcylation. 1133 5

abg-Crystallins are the major protein components in the vertebrate eye lens--a as a molecular chaperone and b and g as structural proteins. Surprisingly, the latter two share some structural characteristics with a number of microbial stress proteins. The common denominator is not only the Greek key topology of their polypeptide chains but also their high intrinsic stability, which, in certain microbial crystallin homologs, is further enhanced by high-affinity Ca2+-binding. Recent studies of natural and mutant vertebrate bg-crystallins as well as spherulin 3a from Physarum polycephalum and Protein S from Myxococcus xanthus allowed the correlation of structure and stability of crystallins to be elucidated in some detail. From the thermodynamic point of view, stability increments come from (1) local interactions involved in the close packing of the cooperative units, (2) the all-b secondary structure of the Greek-key motif, (3) intramolecular interactions between domains, (4) intermolecular domain interactions, including 3D domain swapping and (v) excluded volume effects due to "molecular crowding" at the high cellular protein concentrations. Apart from these contributions to the Gibbs free energy of stability, significant kinetic stabilization originates from the high activation energy barrier determining the rate of unfolding from the native to the unfolded state. From the functional point of view, the high stability is responsible for the long-term transparency of the eye lens, on the one hand, and the stress resistance of the microorganisms in their dormant state on the other. Local structural perturbations due to chemical modification, wrong protein interactions, or other irreversible processes may lead to protein aggregation. A leading cataract hypothesis is that only after a-crystallin, a member of the small heat-shock protein family, is titrated out does pathological opacity occur. Understanding the structural basis of protein stability in the healthy eye lens is the route to solve the enormous medical and economical problem of cataract.
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PMID:Lens crystallins and their microbial homologs: structure, stability, and function. 1172 56

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

The alpha-crystallin is a major structural protein within the lens and consists of two types of subunit, alpha A and alpha B. These subunits propose a model for the quaternary structure of alpha-crystallin. It has been known for many years that its main function is to serve as a structural and refractive elements in lens. Until 1992, Horwitz suggested that alpha-crystallin could act in a chaperone-like manner. Many studies have showed that alpha-crystallin can protect enzymes and other crystallins against both chemically- and thermally-induced inactivation or aggregation, which may play an important role in maintaining transparency of lens. A polypeptide sequence of alpha A-crystallin or extension of alpha B-crystallin in C-terminal-region and hydrophobic N-terminal-region are all essential for chaperone function. A decrease in chaperone activity from nuclear crystallin has been showed in age-dependent fashion. Post-translational modifications occurring to alpha-crystallin with increasing age and during cataract formation may decrease the chaperone activity of alpha-crystallin to different extent, resulting in an increase in other crystallins aggregation and enzymes inactivation. Therefore, these aggregates will increase scattering of light and lead to lens opacification. Development of protective agents for molecular chaperone activity of alpha-crystallin, in conjunction with knowledge of decreasing post-translational modifications, could potentially lead to a new field for the research on pathogenesis and clinical treatment of cataract.
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PMID:[The recent progress on the role of alpha-crystallin as a molecular chaperone in cataractogenesis]. 1257 12

Crystallins are bulk structural proteins of the eye lens that have to last a life time. They gradually become modified with age, denature and form light scattering centres. High thermodynamic and kinetic stability of the crystallins enables them to resist unfolding and delay cataract. Here we have made recombinant human betaA1-, betaA3-, and betaA4-crystallins. The betaA3-crystallin formed higher oligomers that lead to precipitation at ambient temperature. Heat-induced precipitation of betaA3-crystallin was compared with human and calf betaB2-crystallins, showing that the human proteins start to precipitate above 50 degrees C while the calf betaB2-crystallin stays in solution even when unfolded. The stabilities of these human acidic beta-crystallin homo-oligomers have been estimated by measuring their unfolding in urea at neutral pH. BetaA3/1/betaB1 and betaA4/betaB1-crystallin hetero-oligomers have been prepared from homo-oligomers by subunit exchange. The resolution of the methodology used was insufficient to detect a stabilization of the betaA4-crystallin subunit in the hetero-oligomer, the betaA1-crystallin subunit was clearly stabilized by its interaction with betaB1-crystallin. Circular dichroism and fluorescence spectroscopies show that homo-dimer surface tryptophans become buried in the betaA3/1/betaB1-crystallin hetero-dimer concomitant with changes in polypeptide chain conformation.
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PMID:The stability of human acidic beta-crystallin oligomers and hetero-oligomers. 1295 41


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