Mucocutaneous Junction As the Major Source of Replacement Palpebral Conjunctival Epithelial Cells

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Mucocutaneous Junction As the Major Source of Replacement Palpebral Conjunctival Epithelial Cells

Jonathan D. Wirtschafter¹^,2^,3, Jeffrey M. Ketcham¹, Robert J. Weinstock¹, Tara Tabesh¹ and Linda K. McLoon¹^,4

From the Departments of ¹ Ophthalmology, ² Neurology, ³ Neurosurgery, and ⁴ Neuroscience, University of Minnesota, Minneapolis.

PURPOSE. The conjunctival epithelium performs an important rolein the homeostasis and integrity of the eye. To protect theintegrity of the ocular surface, these cells must be replacedfrom locally concentrated or randomly distributed foci of stemcells. These slow-cycling stem cells produce transient amplifyingcells that undergo further divisions before becoming matureconjunctival epithelial cells. In the current study, the sourceof palpebral conjunctival cells was determined.

METHODS. Adult rabbits were injected intraperitoneally withbromodeoxyuridine (BrdU) at a dose of 50 mg/kg body weight andkilled after 1, 3, 5, and 7 days and 2 months. The orbital contentsand eyelids were exenterated en bloc, frozen to maintain theorientation between the eyelids and globe, and sectioned ina parasagittal plane. Random midglobe sections were stainedfor the presence of proliferating cell nuclear antigen (PCNA).Additional sections were immunostained to detect BrdU-labeled conjunctivalepithelial cells. BrdU-positive cells were counted in a seriesof 0.4-mm zones from the mucocutaneous junction of the eyelid, throughthe fornix and bulbar conjunctiva. A second set of rabbits receiveddaily injections of BrdU for 2 or 4 weeks followed by a 2-monthBrdU-free period before death and processing.

RESULTS. In all eyelid sections examined, there was a focusof PCNA-positive cells in the mucocutaneous junction and a fewscattered PCNA-positive cells along the length of the palpebralconjunctiva toward the fornix. In both the upper and lower eyelids,the peak concentration of BrdU-labeled cells/0.4-mm zone waslocated at progressively greater distances from the mucocutaneousjunction in the animals killed at 1, 3, and 5 days respectivelyand was unidentifiable by 7 days. A focus of BrdU-labeled conjunctivalcells remained within 1 to 2 mm of the mucocutaneous junctionat all postinjection intervals. These were always found withinone cell height of the basement membrane in the basal layerof the epithelium. In the long-term studies, BrdU-labeled nucleiwere retained at the mucocutaneous junction.

CONCLUSIONS. The mucocutaneous junction of the conjunctivalepithelium is a source of actively dividing transient amplifyingcells that migrate toward the fornix at a rate of approximately1.7 mm/d with a transit time of approximately 6 days. Long-termretention of label at the mucocutaneous junction indicates thatslow-cycling stem cells are present at this location. It appearsthat most palpebral conjunctival epithelial stem cells are locatednear the mucocutaneous junction. These results are not necessarilyat variance with previous studies, but they diminish the relativeimportance of the forniceal region in palpebral conjunctivalhomeostasis. The mucocutaneous junction may provide a therapeuticallysignificant source of replacement conjunctival cells.

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