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

---

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

The Philly mouse develops a hereditary cataract about 5 weeks after birth. Although the causative agent is not known, data suggest that there is a correlation between cataract formation and the selective absence of a 27 kilodalton (27K) beta-crystallin lens polypeptide. The ontogeny of the 27K beta-crystallin polypeptide was examined in normal mice in order to evaluate its role in normal development and determine what impact its absence may have on the Philly mouse lens. A monoclonal antibody was used with the PAP method to immunocytochemically localize the 27K polypeptide in lenses of normal mice during development. beta-Crystallins detected with polyclonal antisera were found in differentiated fiber cells throughout the lens. In contrast, the 27K beta-crystallin polypeptide detected with a specific monoclonal antibody was not found in the fiber cells of the inner part of the lens (nucleus), but was specifically localized in the fiber cells of the outer part of the lens called the cortex. The polypeptide was found only in elongating and differentiated fiber cells and not in mitotically active epithelial cells. Although a minor component of the 2-day-old lens, the 27K polypeptide comprised a large portion of the 16-day-old lens including the anterior and posterior poles. These data show that the 27K polypeptide is a minor component of the embryonic lens, but becomes a major contributor to the postnatal lens. The 27K beta-crystallin lens polypeptide is abundant in the fiber cells of the normal postnatal mouse lens. The absence of the 27K polypeptide in the Philly mouse may contribute to the observed failure of fiber cells to differentiate in the Philly mouse after birth or may be deleterious in some other manner to normal lens development. The selective absence of the 27K beta-crystallin polypeptide, a defect which precedes cataract formation in the Philly mouse, is intriguing since it suggests a relationship between this major lens polypeptide and lens clarity.
...
PMID:Immunocytochemical localization of the 27K beta-crystallin polypeptide in the mouse lens during development using a specific monoclonal antibody: implications for cataract formation in the Philly mouse. 394 59

Water-soluble and water-insoluble polypeptides from nuclei of clear vs. opaque and brunescent human lenses were resolved by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and electrophoretically transferred to nitrocellulose paper. Treatment of the nitrocellulose blots with monospecific antisera to human alpha and beta crystallin and to antisera against the Major Intrinsic Polypeptide (MIP26) of lens membrane demonstrated no difference in binding between microdissected sections of clear vs. opaque (and brunescent) nuclei. In contrast, treatment of nitrocellulose blots with monospecific antisera to human gamma crystallin demonstrated little or no binding to polypeptides from opaque (and brunescent) nuclei as compared with age-matched clear nuclei. These results demonstrate the selective involvement of gamma crystallins in opacification (and brunescence) in the human lens nucleus, and strongly suggest the presence of covalent changes of the gamma crystallin molecule during development of the human nuclear cataract.
...
PMID:Characterization of polypeptides from human nuclear cataracts by Western blot analysis. 397 61

The three major bovine gamma-crystallin fractions (gamma-II, gamma-III and gamma-IV) are known to have closely related (80-90%) amino acid sequences and three-dimensional folding of the polypeptide backbone. Their chiroptical and emission properties, as measured by circular dichroism (CD) and fluorescence, are now shown to differ distinctly. The far-ultraviolet CD spectra indicate that all three gamma-crystallins have predominantly beta-sheet conformation (45-60%) with only subtle differences in secondary structure. The fluorescence emission maxima of gamma-II, gamma-III and gamma-IV, due to the four tryptophan residues, appear at 324, 329 and 334 nm, respectively, suggesting that tryptophan residues are buried in environments of decreasing hydrophobicity. Corresponding differences in quantum yield may be due to fluorescence quenching by neighboring sulfur-containing residues. Titratable tyrosines are maximal for gamma-III, as manifested from difference absorption spectra at alkaline pH. The near-ultraviolet CD spectra differ in position, magnitude and sign of tryptophan and tyrosine transitions. In addition, a characteristic CD maximum at 235 nm, presumably due to tyrosine-tyrosine exciton interactions, differs in magnitude for each gamma-crystallin. This study shows that the environment and interactions of the aromatic residues of the individual gamma-crystallin fractions are quite different. These variations in tertiary structure may be significant, in terms of stability of gamma-crystallins towards aggregation and denaturation, for understanding lens transparency and cataract formation in general.
...
PMID:Structure and stability of gamma-crystallins. I. Spectroscopic evaluation of secondary and tertiary structure in solution. 406 74

The messenger RNA for a beta-crystallin polypeptide with a molecular size of 27 kilodaltons, first detected 5 to 10 days after birth in the normal mouse lens and the Nakano mouse cataract, was not detected in the Philly mouse cataract with translation in vitro. The heterozygous Philly lens had intermediate levels of the 27-kilodalton beta-crystallin polypeptide and exhibited delayed onset of the cataract. The deficiency of functional 27-kilodalton beta-crystallin messenger RNA is the earliest lesion reported yet for the Philly lens and points to a transcriptional or posttranscriptional developmental defect in this hereditary cataract.
...
PMID:Deficiency of functional messenger RNA for a developmentally regulated beta-crystallin polypeptide in a hereditary cataract. 617 63

The lens crystallins were analyzed in normal dogs and Miniature offSchnauzer dogs with congenital cataract formation. There was an increase in the relative proportions of alpha and beta L-crystallin and a decrease in the beta H and gamma-crystallin with increasing age in the noncataractous lens. These trends were advanced in the age-matched cataractous lenses. "Advanced aging" trends were also noted in various polypeptide components of beta-crystallin. Specifically, the appearance of a 29K band as well as a reversal of the 26K to 27.6K ratio occurred at an earlier age in the cataractous lens than in the clear lens. Three subunits of approximately 19K, 20K, and 21.5K were present on SDS-PAGE for alpha-crystallin from the cataractous lens as opposed to only two of 19K and 21.5K from the clear lens. However, if the protein was not heated following resolubilization in buffer containing 2% SDS and 5% 2-mercaptoethanol, only two subunits of 20K and 21.5K were evident in both clear and cataractous lenses. The electrophoretic behavior observed for both alpha and gamma-crystallins did not appear to be age related.
...
PMID:Isolation and characterization of the crystallins of the normal and cataractous canine lens. 646 67

Analysis of recombinant DNAs provides new information on the basis of crystallin evolution and diversity. All crystallin genes contain introns. Two similar, tandemly linked chicken delta-crystallin genes, which probably arose by gene duplication, contain at least 16-17 introns. In the beta-crystallins three introns are situated between exons encoding the structural motifs of the protein, thus relating gene and protein structure. The structurally similar beta- and gamma-crystallins are coded by separate gene families which apparently arose by successive duplications of a common ancestral gene. The N-termini (5' end of gene) of the beta-crystallins appear to have diverged, while the 3' ends have been conserved. In the single murine alpha A-crystallin gene, coding information (the insert exon) for the alpha Ains peptide is contained within an intron. Alternative RNA splicing of this gene gives both the alpha A2 and the alpha Ains crystallin mRNAs. Thus, molecular genetics is providing a deeper appreciation of evolutionary events and is serving to redefine the crystallins in terms of their genes. Since the crystallins are so abundant in the lens, greater understanding of their polypeptide and gene structure should contribute to our understanding of and ability to treat cataract.
...
PMID:Crystallin genes: templates for lens transparency. 656 73

The water-soluble 43,000-dalton fraction (WS43) of the human lens has been shown to be heterogeneous. It appears to contain, in addition to actin, components related to the crystallins. Immunoblot reactions indicate that this polypeptide fraction is composed of dimers containing beta- and gamma-crystallin components. It has been estimated that 10-30% of this fraction arises by dimerization of gamma-crystallin. A possible route for the formation of the 43,000-dalton fraction is suggested by the observation that photolysis of gamma-crystallin with light greater than 295 nm leads to polymer formation, including the 43,000-dalton fraction. The polymerization products react with anti-WS43. The results suggest that photochemical reactions may lead to the accumulation of polymers of some of the crystallins with aging of the human lens. Similar covalently linked polypeptides have previously been shown to be present in the high molecular weight aggregates associated with cataract formation.
...
PMID:Nondisulfide polymerization of gamma- and beta-crystallins in the human lens. 658 33

We report the X-ray structure analysis and refinement at 1.9 A resolution of calf gamma-II crystallin, a lens-specific protein. The sequence of Croft (1972) has been modified to give a polypeptide chain of 174 residues (cf. 165). The protein has a symmetrical, hierarchical structure of two globular domains each comprising two similar "Greek key" motifs, consecutive along the polypeptide chain, and related by a pseudo 2-fold axis. The two domains pack together with a single connection and are related by a further pseudo 2-fold axis which bisects the angle between the intra-domain dyads. Forty-two pairs of C alpha positions for the two most similar motifs have root-mean-square separation at best fit of 0.69 A. The N and C-terminal domains gave root-mean-square separation of 0.89 A for 82 pairs of C alpha atoms at best fit. In each domain the two Greek key motifs form a pair of four-stranded antiparallel beta-pleated sheets, each sheet composed of three stands from one motif and one from the other. The sheets pack together in a wedge shape, closed at the top by the loops connecting the third and fourth strands of each motif. The first two strands of each motif form an extended beta-hairpin which is folded on to the beta-sheet. The packing of each motif into the globular domains involves a staggered bilayer of side-chains between each pair of beta-sheets which does not preserve the pseudo 2-fold axes observed in the C alpha position topology. In the core of each domain there are interactions between polarizable aromatic groups and sulphur-containing residues which may contribute to stability and may also serve to protect aromatic side-chains from ultraviolet light damage in the lens. At the surface of the molecule over half the ionic side-chains are closely paired, which probably stabilizes the tertiary fold and may reduce the water bound. Crystal lattice interactions are described which may be similar to those occurring in vivo in the lens between crystallins. Seven cysteine residues have been identified in the structure and these may have a role in the thermodynamic stability of the molecule, its intermolecular interactions under the normal reducing conditions of the lens, and also in the aggregation and cross-linking which occur in some forms of cataract. Three of these residues, Cys18, Cys23 and Cys74, form a cluster in the N-terminal domain.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:X-ray analysis of the eye lens protein gamma-II crystallin at 1.9 A resolution. 663 60

Changes similar to posttranslational modifications that are observed with osmotic cataract formation in vivo can be seen with homogenates of lenses. These modifications are the loss of a 31,000 molecular weight (MW) beta crystallin polypeptide, an increase in a 25,000 MW membrane polypeptide. These modifications are potentiated by calcium and occur more rapidly at 37 degrees C than at 4 degrees C. Inhibitors of pepsin or of serine proteases do not influence these modifications, although proteolysis may be responsible for the changes observed.
...
PMID:In vitro alterations similar to posttranslational modification of lens proteins. 669 42

In contrast to other tissues, the lens exists in a milieu containing relatively high (micromolar) concentrations of H2O2. It has been demonstrated that activation of H2O2 to more-potent oxidant species via the heme-undecapeptide from cytochrome c produces alterations in lens crystallin polypeptides similar to the changes found in cataract. These include crystallin polypeptide crosslinking and the development of a blue fluorescence not attributable to tryptophan. Of the three classes of mammalian crystallins, gamma-crystallin is crosslinked by heme peptide-H2O2, whereas alpha and beta are not. Heme peptide plus H2O2 generates dityrosine from free tyrosine, and, concomitant with crosslinking, the gamma-crystallin exposed to this system develops a new fluorophor with the the characteristics of dityrosine. The findings with bovine and human crystallins are identical in this regard. In addition to the oxidation of tyrosine, exposure to heme peptide-H2O2 results in the oxidation of tryptophan. The intrinsic fluorescence of alpha, beta, and gamma-crystallins is due primarily to tryptophan, and the intrinsic fluorescence of each is decreased by heme peptide-H2O2. Thus, tryptophan oxidation occurs in all crystallins, but crosslinking occurs only in gamma-crystallin and is associated with oxidation of tyrosine.
...
PMID:An analysis of the H2O2-mediated crosslinking of lens crystallins catalyzed by the heme-undecapeptide from cytochrome c. 673 43


<< Previous 1 2 3 4 5 6 7 Next >>

---