Corneal Development, Limbal Stem Cell Function, and Corneal Epithelial Cell Migration in the Pax6+/- Mouse

doi:10.1167/iovs.03-1118

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Corneal Development, Limbal Stem Cell Function, and Corneal Epithelial Cell Migration in the Pax6^+/- Mouse

J. Martin Collinson,¹^,2 Simon A. Chanas,² Robert E. Hill,³ and John D. West²

^¹From the Department of Biomedical Sciences, Institute of Medical Sciences, University of Aberdeen, Foresterhill, Aberdeen, Scotland, United Kingdom; the ^²Division of Reproductive and Developmental Sciences, Genes and Development Group, University of Edinburgh, Edinburgh, Scotland, United Kingdom; and the ^³Comparative and Developmental Genetics Section, Medical Research Council [MRC] Human Genetics Unit, Edinburgh, Scotland, United Kingdom.

PURPOSE. To investigate the etiology of corneal dysfunctionin the Pax6^+/- mouse model of aniridia-related keratopathy.

METHODS. Mosaic patterns of X-gal staining were compared inthe corneal and limbal epithelia of female Pax6^+/- and Pax6^+/+littermates, age 3 to 28 weeks, hemizygous for an X-linked LacZtransgene, and Pax6^+/+, LacZ^- ${leftrightarrow}$ Pax6^+/+, LacZ⁺ and Pax6^+/+, LacZ^- ${leftrightarrow}$ Pax6^+/-,LacZ⁺ chimeras. Histologic examination of chimeric corneas wasperformed.

RESULTS. Disrupted patterns of X-gal staining showed that heterozygosityfor Pax6 perturbed clonal patterns of growth and developmentin the corneal and limbal epithelium. Centripetal migrationof Pax6^+/- corneal epithelial cells was diverted. Normal patternsof centripetal Pax6^+/- cell migration and epithelial morphologywere restored in Pax6^+/+ ${leftrightarrow}$ Pax6^+/- chimeras. Fewer, larger clonesof limbal stem cells were present in Pax6^+/- eyes, comparedwith wild-type. In the chimeras, Pax6^+/- limbal stem cells werecell-autonomously depleted or less efficient than wild-typecells at producing progeny to populate the corneal epithelium.

CONCLUSIONS. The correct Pax6 dosage is necessary for normalclonal growth during corneal development, normal limbal stemcell activity, and correct corneal epithelial cell migration.Disruption of normal cell movement in heterozygotes may be theconsequence of failure of nonautonomous guidance cues. Degenerationof the corneal surface in aniridia-related keratopathy relatesto both a deficiency within the limbal stem cell niche and nonautonomousdiversion of corneal epithelial cell migration.

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