Development of Cataractous Macrophthalmia in Mice Expressing an Active MEK1 in the Lens

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Development of Cataractous Macrophthalmia in Mice Expressing an Active MEK1 in the Lens

Xiaohua Gong¹, Xin Wang¹, Jiahuai Han², Ingrid Niesman¹, Qingling Huang³ and Joseph Horwitz³

¹ From the Department of Cell Biology ² Immunology, The Scripps Research Institute, La Jolla, California ³ Jules Stein Eye Institute at University of California, Los Angeles.

PURPOSE. To characterize the extracellular signal-regulatedkinase (ERK) pathway in the lens and to try to understand howthis pathway contributes to lens function and cataractogenesis.

METHODS. The members of the ERK pathway in the lens were examinedby Western blotting, immunohistochemical staining, and kinaseassay. A gain-of-function approach was used to perturb the ERKpathway in the lenses of transgenic mice via expression of aconstitutively active mutant of the mitogen-activated proteinkinase kinase 1 (MEK1(E)), the direct upstream kinase of theERK1 and ERK2 kinases, under the ${alpha}$ A-crystallin promoter.

RESULTS. The presence of an active ERK pathway was found inlens epithelial cells and in differentiating fibers. Transgenicmice that expressed MEK1(E) developed postnatal cataracts aswell as macrophthalmia. Distinct morphologic alterations, suchas lens enlargement, swelling fiber cells, enlarged extracellularspace, and vacuole formation, were observed in the lenses ofthese transgenic mice. A significant increase in the glucosetransporter 1 (GLUT1) level, as well as in the glucose level,was detected in the lens.

CONCLUSIONS. The MAP kinase pathway is involved in the regulationof glucose metabolism and balance in the mouse lens. Moreover,the alteration of MAP kinase activity in the lens is sufficientto cause cataract formation with enlarged extracellular spaceand vacuoles in the differentiating fibers. This transgenicmouse may provide a useful model for understanding the mechanism(s)for some aspects of human cataracts.

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