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Journal of Cell Science, Vol 106, Issue 3 859-867, Copyright © 1993 by Company of Biologists
JOURNAL ARTICLES |
LJ Rizzolo and ZQ Li
Department of Anatomy and Cell Biology, Emory University, Atlanta, GA 30322.
The retinal pigment epithelium lies at the interface between the neural retina and the choriocapillaris where it forms a blood-retinal barrier. Barrier function requires a polarized distribution of plasma membrane proteins and 'tight' tight junctions. During chicken embryogenesis, these features develop gradually. Although terminal junctional complexes are established by embryonic day 4, the distribution of the Na+/K(+)-APTase is not polarized in all cells of the epithelium until embryonic day 11. Similarly, the tight junctions of early embryos are leaky, but become tight by hatching (embryonic day 21). We used primary cell culture to examine the molecular basis of this gradual induction of polarized function. Pigment epithelium harvested from embryonic day 7, and cultured on filters, formed monolayers coupled by junctional complexes. The distribution of the Na+/K(+)-ATPase was non-polarized and the tight junctions were leaky with a transepithelial electrical resistance of 20-30 omega cm2. To isolate diffusible factors that stimulate the transepithelial electrical resistance, neural retinas from embryonic day 7, 14 or 16 embryos were incubated at 37 degrees C in base medium for 6 hours. The conditioned medium was added to the apical chamber of freshly cultured pigment epithelium. The distribution of the Na+/K(+)-ATPase became basolateral, and the electrical resistance gradually increased two to three times over 6 days. The increase in electrical resistance corresponded to a decrease in the rate of [3H]inulin diffusion across the monolayer. The effectiveness of the conditioned medium increased steadily with increasing age of the neural retina. Rather than increased production of an active factor, apparently different active factors were produced at different ages.(ABSTRACT TRUNCATED AT 250 WORDS)
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