Defining Compartmentalized Stem Cell Populations with Distinct Cell Division Dynamics in the Ocular Surface Epithelium

Overview

Journal Development

Specialty Biology

Date 2020 Nov 17

PMID 33199446

Citations 10

Authors

Ryutaro Ishii

Hiromi Yanagisawa

Aiko Sada

Affiliations

Soon will be listed here.

Abstract

Adult tissues contain label-retaining cells (LRCs), which are relatively slow-cycling and considered to represent a property of tissue stem cells (SCs). In the ocular surface epithelium, LRCs are present in the limbus and conjunctival fornix; however, the character of these LRCs remains unclear, owing to lack of appropriate molecular markers. Using three CreER transgenic mouse lines, we demonstrate that the ocular surface epithelium accommodates spatially distinct populations with different cell division dynamics. In the limbus, long-lived Slc1a3-labeled SCs either migrate centripetally toward the central cornea or slowly expand their clones laterally within the limbal region. In the central cornea, non-LRCs labeled with Dlx1 and K14 behave as short-lived progenitor cells. The conjunctival epithelium in the bulbar, fornix and palpebral compartment is regenerated by regionally unique SC populations. Severe damage to the cornea leads to the cancellation of SC compartments and conjunctivalization, whereas milder limbal injury induces a rapid increase of laterally expanding clones in the limbus. Taken together, our work defines compartmentalized multiple SC/progenitor populations of the mouse eye in homeostasis and their behavioral changes in response to injury.

Citing Articles

De-Differentiation of Corneal Epithelial Cells Into Functional Limbal Epithelial Stem Cells After the Ablation of Innate Stem Cells.

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A detailed survey of the murine limbus, its stem cell distribution, and its boundaries with the cornea and conjunctiva.

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Eyes open on stem cells.

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