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)

In the ocular lens, gap junctional communication is a key component of homeostatic mechanisms preventing cataract formation. Gap junctions in rodent lens fibers contain two known intercellular channel-forming proteins, connexin50 (Cx50) and Cx46. Since targeted ablation of Cx46 has been shown to cause senile-type nuclear opacities, it appears that Cx50 alone cannot meet homeostatic requirements. To determine if lens pathology arises from a reduction in levels of communication or the loss of a connexin-specific function, we have generated mice with a targeted deletion of the Cx50 gene. Cx50-null mice exhibited microphthalmia and nuclear cataracts. At postnatal day 14 (P14), Cx50-knockout eyes weighed 32% less than controls, whereas lens mass was reduced by 46%. Cx50-knockout lenses also developed zonular pulverulent cataracts, and lens abnormalities were detected by P7. Deletion of Cx50 did not alter the amounts or distributions of Cx46 or Cx43, a component of lens epithelial junctions. In addition, intercellular passage of tracers revealed the persistence of communication between all cell types in the Cx50-knockout lens. These results demonstrate that Cx50 is required not only for maintenance of lens transparency but also for normal eye growth. Furthermore, these data indicate that unique functional properties of both Cx46 and Cx50 are required for proper lens development.
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PMID:Targeted ablation of connexin50 in mice results in microphthalmia and zonular pulverulent cataracts. 981 99

Connexin alpha 3 (Cx46 or Gja3) gene targeted null mice developed lens nuclear cataracts shortly after birth. A large variance in the cataracts was observed in alpha 3 null sibs on a mixed 129SvJae X C57BL/6J F3 background. This suggested that the genetic background might influence the cataract phenotype. Therefore, we placed the alpha 3 null mutation into a 129SvJae background, and also backcrossed the mutation for six generations into 129SvJ and C57BL/6J backgrounds. While alpha 3 nulls on the two 129 backgrounds contained severe cataracts associated with gamma crystallin cleavage, alpha 3 nulls on the C57B16 background had far milder cataracts with no detectable gamma crystallin cleavage. These findings suggest that a genetic modifier exists that influences gamma crystallin stability, and that gamma crystallin breakdown is associated with severe nuclear cataracts.
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PMID:Genetic factors influence cataract formation in alpha 3 connexin knockout mice. 1007 8

Loci for autosomal dominant "zonular pulverulent" cataract have been mapped to chromosomes 1q (CZP1) and 13q (CZP3). Here we report genetic refinement of the CZP3 locus and identify underlying mutations in the gene for gap-junction protein alpha-3 (GJA3), or connexin46 (Cx46). Linkage analysis gave a significantly positive two-point LOD score (Z) at marker D13S175 (maximum Z [Zmax]=>7.0; maximum recombination frequency [thetamax] =0). Haplotyping indicated that CZP3 probably lies in the genetic interval D13S1236-D13S175-D13S1316-cen-13pter, close to GJA3. Sequencing of a genomic clone isolated from the CZP3 candidate region identified an open reading frame coding for a protein of 435 amino acids (47,435 D) that shared approximately 88% homology with rat Cx46. Mutation analysis of GJA3 in two families with CZP3 detected distinct sequence changes that were not present in a panel of 105 normal, unrelated individuals. In family B, an A-->G transition resulted in an asparagine-to-serine substitution at codon 63 (N63S) and introduced a novel MwoI restriction site. In family E, insertion of a C at nucleotide 1137 (1137insC) introduced a novel BstXI site, causing a frameshift at codon 380. Restriction analysis confirmed that the novel MwoI and BstXI sites cosegregated with the disease in families B and E, respectively. This study identifies GJA3 as the sixth member of the connexin gene family to be implicated in human disease, and it highlights the physiological importance of gap-junction communication in the development of a transparent eye lens.
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PMID:Connexin46 mutations in autosomal dominant congenital cataract. 1020 66

Rapid advances in understanding the molecular biology of the gap junctional proteins - connexins (Cx) - have revealed that these proteins are indispensable for various cellular functions. Recent findings that mutational alterations of Cx genes leads to several quite different human diseases provide additional evidence that these proteins possess several not yet fully understood functions. Many different mutations of Cx32 have been found in the hereditary peripheral neuropathy - X-linked Charcot-Marie-Tooth syndrome and several mutations of Cx26 and Cx31 have been detected in deafness. Individual mutations of Cx46, Cx50 and Cx43 have been found in cataract or heart malformations. In this review, we analyzed the functional importance of mutations of different Cx described in different human diseases. Topological comparison of mutations in different Cx species has revealed several hot spots, where mutations are common for two different Cx or diseases. The value of Cx mutations associated with diseases for understanding Cx functions is discussed.
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PMID:Connexin gene mutations in human genetic diseases. 1076 31

Human connexin46 (hCx46) forms gap junctional channels interconnecting lens fiber cells and appears to be critical for normal lens function, because hCx46 mutations have been linked to congenital cataracts. We studied two hCx46 mutants, N63S, a missense mutation in the first extracellular domain, and fs380, a frame-shift mutation that shifts the translational reading frame at amino acid residue 380. We expressed wild-type Cx46 and the two mutants in Xenopus oocytes. Production of the expressed proteins was verified by SDS-PAGE after metabolic labeling with [(35)S]methionine or by immunoblotting. Dual two-microelectrode voltage-clamp studies showed that hCx46 formed both gap junctional channels in paired Xenopus oocytes and hemi-gap junctional channels in single oocytes. In contrast, neither of the two cataract-associated hCx46 mutants could form intercellular channels in paired Xenopus oocytes. The hCx46 mutants were also impaired in their ability to form hemi-gap-junctional channels. When N63S or fs380 was coexpressed with wild-type connexins, both mutations acted like "loss of function" rather than "dominant negative" mutations, because they did not affect the gap junctional conductance induced by either wild-type hCx46 or wild-type hCx50.
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PMID:Connexin46 mutations linked to congenital cataract show loss of gap junction channel function. 1094 9

Disruption of the connexin alpha 3 (Cx46) gene (alpha 3 (-/-)) in mice results in severe cataracts within the nuclear portion of the lens. These cataracts are associated with proteolytic processing of the abundant lens protein gamma-crystallin, leading to its aggregation and subsequent opacification of the lens. The general cysteine protease inhibitor, E-64, blocked cataract formation and gamma-crystallin cleavage in alpha 3 (-/-) lenses. Using a new class of activity-based cysteine protease affinity probes, we identified the calcium-dependent proteases, m-calpain and Lp82, as the primary targets of E-64 in the lens. Profiling changes in protease activities throughout cataractogenesis indicated that Lp82 activity was dramatically increased in alpha 3 (-/-) lenses and correlated both spatially and temporally with cataract formation. Increased Lp82 activity was due to calcium accumulation as a result of increased influx and decreased outflux of calcium ions in alpha 3 (-/-) lenses. These data establish a role for alpha 3 gap junctions in maintaining calcium homeostasis that in turn is required to control activity of the calcium-dependent cysteine protease Lp82, shown here to be a key initiator of the process of cataractogenesis.
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PMID:Defining a link between gap junction communication, proteolysis, and cataract formation. 1139 8

Mutations of connexin alpha 8 (GJA8 or Cx50) and connexin alpha 3 (GJA3 or Cx46) in humans have been reported to cause cataracts with semi-dominant inheritance patterns. Targeted null mutations in Gja8 and Gja3 in mice cause cataracts with recessive inheritance. The molecular bases for these differences in inheritance patterns and the mechanism for cataractogenesis in these mutants are poorly understood. We recently mapped an autosomal semi-dominant cataract [lens opacity 10 (Lop10)] mutation to mouse chromosome 3 and identified a missense mutation (G-->C) in the Gja8 gene, which causes glycine at codon 22 to be replaced with arginine (G22R). Moreover, we demonstrated that the alpha 8 G22R isoform is a loss-of-function mutant for alpha 8, as well as a dominant mutation for reducing the phosphorylated forms of alpha 3 connexin in vivo. To test the hypothesis that the alteration of endogenous alpha 3 connexin in Lop10 mice led to a unique lens phenotype, we generated double mutant offspring between Lop10 and the Gja3(tm1) (alpha 3(-/-)) mice. The double homozygous mutant mice (Lop10/Lop10 alpha 3(-/-)) showed relatively normal lens cortical fibers compared to the Lop10 mice. A functional impairment of endogenous alpha 3 connexin is therefore partly responsible for cellular phenotypes in the Lop10 mice. This study has provided some novel molecular insights into mouse and human cataractogenesis caused by alpha 8 and alpha 3 mutations. These mouse models will be useful for investigating the mechanistic relationship between gap junction impairment and cataract formation.
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PMID:A Gja8 (Cx50) point mutation causes an alteration of alpha 3 connexin (Cx46) in semi-dominant cataracts of Lop10 mice. 1187 45

Chemical gating of gap junction channels by intracellular pH may be an important mechanism for the physiological regulation of cell-cell coupling. In the ocular lens, pH gating of gap junction channels has been implicated as a possible cause of cataract in diabetics. To address this question further, I determined the pH dependence of the rat connexin (Cx)-46 and ovine Cx49 in transfected HeLa cells using the pH-clamp technique during dual whole-cell recording. pH gating for both connexins was fast and reversible. The apparent p K(a) (p K(a,app)) was 6.66 +/- 0.01 and the Hill coefficient ( n) 6.8 +/- 1.8 for Cx49, and for Cx46 6.8 +/- 0.01 and 2.2 +/- 0.15, respectively. C-terminal truncation of Cx46 by 163 aa did not abolish the pH sensitivity but shifted the p K(a,app) to 6.6 +/- 0.01. This finding is inconsistent with the ball-and-chain model proposed for Cx43. Voltage gating of Cx46 channels was also not altered by truncation or acidic pH, indicating that the two gating mechanisms are functionally and possibly structurally separate. The data also imply a significant role of pH gating for lens pathophysiology. For the normal pH range in the lens cortex (pH 6.8-7.2) most gap junction channels will be open. However, mild acidification will reduce gap junctional coupling significantly, especially for Cx50 channels. Localized closure of gap junction channels will disrupt lens transport and thus may contribute to the tissue damage observed in diabetic lenses.
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PMID:pH gating of lens fibre connexins. 1188 84

There is a good deal of evidence that the lens generates an internal micro circulatory system, which brings metabolites, like glucose, and antioxidants, like ascorbate, into the lens along the extracellular spaces between cells. Calcium also ought to be carried into the lens by this system. If so, the only path for Ca2+ to get out of the lens is to move down its electrochemical gradient into fiber cells, and then move by electrodiffusion from cell to cell through gap junctions to surface cells, where Ca-ATPase activity and Na/Ca exchange can transport it back into the aqueous or vitreous humors. The purpose of the present study was to test this calcium circulation hypothesis by studying calcium homeostasis in connexin (Cx46) knockout and (Cx46 for Cx50) knockin mouse lenses, which have different degrees of gap junction coupling. To measure intracellular calcium, FURA2 was injected into fiber cells, and the gradient in calcium concentration from center to surface was mapped in each type of lens. In wild-type lenses the coupling conductance of the mature fibers was approximately 0.5 S/cm2 of cell to cell contact, and the best fit to the calcium concentration data varied from 700 nM in the center to 300 nM at the surface. In the knockin lenses, the coupling conductance was approximately 1.0 S/cm2 and calcium varied from approximately 500 nM at the center to 300 nM at the surface. Thus, when the coupling conductance doubled, the concentration gradient halved, as predicted by the model. In knockout lenses, the coupling conductance was zero, hence the efflux path was knocked out and calcium accumulated to approximately 2 microM in central fibers. Knockout lenses also had a dense central cataract that extended from the center to about half the radius. Others have previously shown that this cataract involves activation of a calcium-dependent protease, Lp82. We can now expand on this finding to provide a hypothesis on each step that leads to cataract formation: knockout of Cx46 causes loss of coupling of mature fiber cells; the efflux path for calcium is therefore blocked; calcium accumulates in the central cells; at concentrations above approximately 1 microM (from the center to about half way out of a 3-wk-old lens) Lp82 is activated; Lp82 cleaves cytoplasmic proteins (crystallins) in central cells; and the cleaved proteins aggregate and scatter light.
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PMID:Connections between connexins, calcium, and cataracts in the lens. 1545 95

The purpose of this work was to determine if the lens gap junction proteins connexin 46 (Cx46) and connexin 50 (Cx50) were altered with the development of selenite-induced cataract. Cataracts were induced in young Sprague-Dawley rats with a single subcutaneous injection of sodium selenite; age-matched uninjected rats served as controls. Membrane fractions were isolated from homogenates of cortex and nucleus of normal and cataractous lenses by differential and discontinuous sucrose gradient centrifugation. Aliquots of urea-insoluble protein from membrane fractions were analyzed by quantitative densitometry of Western blots probed with antibodies to Cx46 and Cx50. A significant decrease in the more slowly migrating Cx46-reactive band, which represents phosphorylated Cx46, was found in the major membrane fraction of the cortex of cataractous lenses. There was no significant difference in the amounts of either Cx46 or Cx50 associated with selenite cataract in any of the membrane fractions examined. These results suggest that alteration of gap junction function (as evidenced by the change in phosphorylation of Cx46) may be associated with the development of the selenite cataract, but that neither Cx46 nor Cx50 is subject to the well-characterized proteolysis associated with the selenite cataract model.
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PMID:Connexin 46 and connexin 50 in selenite cataract. 1619 45

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