Literature DB >> 16639013

A transgenic mouse model for human autosomal dominant cataract.

Cheng-Da Hsu1, Steven Kymes, J Mark Petrash.   

Abstract

PURPOSE: To characterize lenses from transgenic mice designed to express mutant and wild-type alphaA-crystallin subunits.
METHODS: A series of transgenic mouse strains was created to express mutant (R116C) and wild-type human alphaA-crystallin in fiber cells of the lens. Dissected lenses were phenotypically scored for the presence and extent of opacities, fiber cell morphology, and posterior suture morphology. Gene transcripts derived from integrated transgenes were detected by reverse transcriptase-PCR. Distribution of expressed transgenic protein was determined by immunohistochemical staining of lens tissue sections. The abundance of endogenous and transgenic lens proteins was estimated by quantitative Western blot analysis.
RESULTS: Expression of R116C mutant alphaA-crystallin subunits resulted in posterior cortical cataracts and abnormalities associated with the posterior suture. The severity of lens abnormalities did not increase between the ages of 9 and 30 weeks. With respect to opacities and morphologic abnormalities, lenses from transgenic mice that express wild-type human alphaA-crystallin subunits were indistinguishable from age-matched nontransgenic control mice. Similar phenotypes were observed in different independent lines of R116C transgenic mice that differed by at least two orders of magnitude in the expression level of the mutant transgenic protein.
CONCLUSIONS: The results show that lens opacities and posterior sutural defects occur when mutant R116C alphaA-crystallin subunits are expressed on the background of wild-type endogenous mouse alpha-crystallins. Low levels of R116C alphaA-crystallin subunits are sufficient to induce lens opacities and sutural defects.

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Year:  2006        PMID: 16639013      PMCID: PMC1855087          DOI: 10.1167/iovs.05-0524

Source DB:  PubMed          Journal:  Invest Ophthalmol Vis Sci        ISSN: 0146-0404            Impact factor:   4.799


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Review 3.  Alpha-crystallin.

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5.  The cardiomyopathy and lens cataract mutation in alphaB-crystallin alters its protein structure, chaperone activity, and interaction with intermediate filaments in vitro.

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6.  alpha-Crystallin chaperone-like activity and membrane binding in age-related cataracts.

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