Literature DB >> 17997336

Corneal crystallins and the development of cellular transparency.

James V Jester1.   

Abstract

Past studies have established that the cornea like the lens abundantly expresses a few water-soluble enzyme/proteins in a taxon specific fashion. Based on these similarities it has been proposed that the lens and the cornea form a structural unit, the 'refracton', that has co-evolved through gene sharing to maximize light transmission and refraction to the retina. Thus far, the analogy between corneal crystallins and lens crystallins has been limited to similarities in the abundant expression, with few reports concerning their structural function. This review covers recent studies that establish a clear relationship between expression of corneal crystallins and light scattering from corneal stromal cells, i.e. keratocytes, that support a structural role for corneal crystallins in the development of transparency similar to that of lens crystallins that would be consistent with the 'refracton' hypothesis.

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Year:  2007        PMID: 17997336      PMCID: PMC2275913          DOI: 10.1016/j.semcdb.2007.09.015

Source DB:  PubMed          Journal:  Semin Cell Dev Biol        ISSN: 1084-9521            Impact factor:   7.727


  78 in total

1.  Corneal haze development after PRK is regulated by volume of stromal tissue removal.

Authors:  T Møller-Pedersen; H D Cavanagh; W M Petroll; J V Jester
Journal:  Cornea       Date:  1998-11       Impact factor: 2.651

2.  In vivo confocal microscopy after herpes keratitis.

Authors:  Maria E Rosenberg; Timo M T Tervo; Linda J Müller; Jukka A O Moilanen; Minna H Vesaluoma
Journal:  Cornea       Date:  2002-04       Impact factor: 2.651

3.  The soluble proteins of the bovine cornea.

Authors:  W S Holt; J H Kinoshita
Journal:  Invest Ophthalmol       Date:  1973-02

4.  Human aldehyde dehydrogenase 3A1 inhibits proliferation and promotes survival of human corneal epithelial cells.

Authors:  Aglaia Pappa; Donald Brown; Yiannis Koutalos; James DeGregori; Carl White; Vasilis Vasiliou
Journal:  J Biol Chem       Date:  2005-05-19       Impact factor: 5.157

Review 5.  Corneal stromal wound healing in refractive surgery: the role of myofibroblasts.

Authors:  J V Jester; W M Petroll; H D Cavanagh
Journal:  Prog Retin Eye Res       Date:  1999-05       Impact factor: 21.198

6.  The relationship between morphology and transparency in the nonswelling corneal stroma of the shark.

Authors:  J N Goldman; G B Benedek
Journal:  Invest Ophthalmol       Date:  1967-12

Review 7.  Keratan sulfate: structure, biosynthesis, and function.

Authors:  J L Funderburgh
Journal:  Glycobiology       Date:  2000-10       Impact factor: 4.313

8.  In vivo confocal microscopic studies of endothelial wound healing in rabbit cornea.

Authors:  H Ichijima; W M Petroll; J V Jester; P A Barry; P M Andrews; M Dai; H D Cavanagh
Journal:  Cornea       Date:  1993-09       Impact factor: 2.651

9.  Microarray studies reveal macrophage-like function of stromal keratocytes in the cornea.

Authors:  Shukti Chakravarti; Feng Wu; Neeraj Vij; Luke Roberts; Sarah Joyce
Journal:  Invest Ophthalmol Vis Sci       Date:  2004-10       Impact factor: 4.799

10.  Constitutive expression of class 3 aldehyde dehydrogenase in cultured rat corneal epithelium.

Authors:  J S Boesch; C Lee; R G Lindahl
Journal:  J Biol Chem       Date:  1996-03-01       Impact factor: 5.157
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  57 in total

1.  Molecular mechanisms of ALDH3A1-mediated cellular protection against 4-hydroxy-2-nonenal.

Authors:  William Black; Ying Chen; Akiko Matsumoto; David C Thompson; Natalie Lassen; Aglaia Pappa; Vasilis Vasiliou
Journal:  Free Radic Biol Med       Date:  2012-03-08       Impact factor: 7.376

2.  Myofibroblast differentiation modulates keratocyte crystallin protein expression, concentration, and cellular light scattering.

Authors:  James V Jester; Donald Brown; Aglaia Pappa; Vasilis Vasiliou
Journal:  Invest Ophthalmol Vis Sci       Date:  2012-02-16       Impact factor: 4.799

Review 3.  Corneal injury: Clinical and molecular aspects.

Authors:  Brayden Barrientez; Sarah E Nicholas; Amy Whelchel; Rabab Sharif; Jesper Hjortdal; Dimitrios Karamichos
Journal:  Exp Eye Res       Date:  2019-06-22       Impact factor: 3.467

Review 4.  Regulation of corneal stroma extracellular matrix assembly.

Authors:  Shoujun Chen; Michael J Mienaltowski; David E Birk
Journal:  Exp Eye Res       Date:  2015-04       Impact factor: 3.467

5.  Foveolar Müller Cells of the Pied Flycatcher: Morphology and Distribution of Intermediate Filaments Regarding Cell Transparency.

Authors:  Lidia Zueva; Tatiana Golubeva; Elena Korneeva; Vladimir Makarov; Igor Khmelinskii; Mikhail Inyushin
Journal:  Microsc Microanal       Date:  2016-03-01       Impact factor: 4.127

Review 6.  The molecular basis of corneal transparency.

Authors:  John R Hassell; David E Birk
Journal:  Exp Eye Res       Date:  2010-07-03       Impact factor: 3.467

7.  Proparacaine induces cytotoxicity and mitochondria-dependent apoptosis in corneal stromal cells both in vitro and in vivo.

Authors:  Wen Yi Fan; Yun Long Sui; Ting Jun Fan
Journal:  Toxicol Res (Camb)       Date:  2016-07-12       Impact factor: 3.524

8.  Proteome profiling of wild type and lumican-deficient mouse corneas.

Authors:  Hanjuan Shao; Raghothama Chaerkady; Shoujun Chen; Sneha M Pinto; Rakesh Sharma; Bernard Delanghe; David E Birk; Akhilesh Pandey; Shukti Chakravarti
Journal:  J Proteomics       Date:  2011-05-17       Impact factor: 4.044

Review 9.  Ocular aldehyde dehydrogenases: protection against ultraviolet damage and maintenance of transparency for vision.

Authors:  Ying Chen; David C Thompson; Vindhya Koppaka; James V Jester; Vasilis Vasiliou
Journal:  Prog Retin Eye Res       Date:  2012-10-23       Impact factor: 21.198

Review 10.  Aldehyde dehydrogenases: from eye crystallins to metabolic disease and cancer stem cells.

Authors:  Vasilis Vasiliou; David C Thompson; Clay Smith; Mayumi Fujita; Ying Chen
Journal:  Chem Biol Interact       Date:  2012-11-16       Impact factor: 5.192
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