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  • Title: Mitotic inhibition of corneal endothelium in neonatal rats.
    Author: Joyce NC, Harris DL, Zieske JD.
    Journal: Invest Ophthalmol Vis Sci; 1998 Dec; 39(13):2572-83. PubMed ID: 9856767.
    Abstract:
    PURPOSE: Corneal endothelium in humans does not divide to any significant extent after birth; therefore, with age there is a gradual loss of cells. When cell density is reduced to a critical level, the endothelium cannot function to maintain corneal clarity, and the cornea becomes permanently cloudy. Currently, the blindness that results can be treated only by corneal transplantation. The long-term goal is to find methods to stimulate corneal endothelial proliferation in a clinically relevant manner. The first step toward achieving this goal is to identify mechanisms responsible for the induction and maintenance of mitotic inhibition of the corneal endothelium in vivo. During corneal development, the endothelium is formed by migration and proliferation of mesenchymal cells from the ocular periphery. Soon after the monolayer is formed, proliferation ceases. In tissue culture, many cell types cease proliferating upon formation of stable cell-cell and cell-substrate attachments. The goal of the present studies was to determine whether establishment of stable contacts correlates with cessation of endothelial proliferation during corneal development in vivo. METHODS: Corneas from neonatal (days 1, 3, 7, 10, 13, 14, 17, 21, 28, and 42) and adult rats were used for immunolocalization of the following: bromodeoxyuridine (BrdU), an S-phase marker; p27kip1 and p21cip1, G1-phase inhibitors; connexin-43 and ZO-1, proteins associated with gap and tight junctions, respectively; Na+/K+-ATPase and beta3-integrin, markers of plasma membrane polarity; and fibronectin and collagen type IV, constituents of Descemet's membrane. Nuclei staining positively for BrdU were counted to determine the relative number of S-phase cells at various times after birth. Marker protein expression and localization were determined by conventional fluorescence microscopy and by confocal microscopy. RESULTS: The number of endothelial cells staining positively for BrdU gradually decreased between postnatal days 1 and 13. After postnatal day 13, positive BrdU staining was no longer detectable. During the first postnatal week, cells stained positively for the G1-phase inhibitor p27kip1 but not for p21cip1. Connexin-43 achieved its mature location by postnatal day 1. ZO-1, Na+/K+-ATPase, beta3-integrin, fibronectin, and collagen type IV achieved their mature localization patterns between postnatal days 14 and 21. CONCLUSIONS: In neonatal rat, corneal endothelial cells are still entering the cell cycle at birth, but cell cycle entry gradually decreases, so that by postnatal day 13 cells are no longer entering the S-phase. The G1-phase inhibitor p27kip1, but not p21cip1, may help mediate this inhibition. Stable cell-cell and cell-substrate contacts gradually form, and monolayer maturation is complete between postnatal days 14 and 21. The results lead to the hypothesis that, in developing rat cornea in vivo, the establishment of stable cell-cell and cell-substrate contacts initiates a cascade of events, mediated by p27kip1, which induces mitotic inhibition in the endothelial monolayer.
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