Epithelial stem cell homeostasis in Meibomian gland development, dysfunction, and dry eye disease
Edem Tchegnon, Chung-Ping Liao, Elnaz Ghotbi, Tracey Shipman, Yong Wang, Renee M. McKay, Lu Q. Le
Edem Tchegnon, Chung-Ping Liao, Elnaz Ghotbi, Tracey Shipman, Yong Wang, Renee M. McKay, Lu Q. Le
View: Text | PDF
Research Article Ophthalmology

Epithelial stem cell homeostasis in Meibomian gland development, dysfunction, and dry eye disease

Abstract

Dry eye disease affects over 16 million adults in the US, and the majority of cases are due to Meibomian gland dysfunction. Unfortunately, the identity of the stem cells involved in Meibomian gland development and homeostasis is not well elucidated. Here, we report that loss of Krox20, a zinc finger transcription factor involved in the development of ectoderm-derived tissues, or deletion of KROX20-expressing epithelial cells disrupted Meibomian gland formation and homeostasis, leading to dry eye disease secondary to Meibomian gland dysfunction. Ablation of Krox20-lineage cells in adult mice also resulted in dry eye disease, implicating Krox20 in homeostasis of the mature Meibomian gland. Lineage-tracing and expression analyses revealed a restricted KROX20 expression pattern in the ductal areas of the Meibomian gland, although Krox20-lineage cells generate the full, mature Meibomian gland. This suggests that KROX20 marks a stem/progenitor cell population that differentiates to generate the entire Meibomian gland. Our Krox20 mouse models provide a powerful system that delineated the identity of stem cells required for Meibomian gland development and homeostasis and can be used to investigate the factors underlying these processes. They are also robust models of Meibomian gland dysfunction–related dry eye disease, with a potential for use in preclinical therapeutic screening.

Authors

Edem Tchegnon, Chung-Ping Liao, Elnaz Ghotbi, Tracey Shipman, Yong Wang, Renee M. McKay, Lu Q. Le

×

Figure 2

KROX20 protein is required for Meibomian gland development.

Options: View larger image (or click on image) Download as PowerPoint
KROX20 protein is required for Meibomian gland development. (A and C) Li...
(A and C) Lineage tracing in Krox20-Cre; R26-tdTomato (Krox20-Cre; R26-Tom) mice shows absence of KROX20 expression or Krox20-lineage cells in the cornea (white arrows) and the limbus (green arrows). (B) The purple boxed region in A, which displays an image of “P5 eye,” is shown, with a high-magnification view of the cornea. (C) Immunofluorescence staining of eyeballs from Krox20-Cre;R26-Tom mice for limbus marker K15 and tdTomato (Tom). (D) The yellow boxed region in C, which displays an image of “P83 eye,” is shown, with a high-magnification view of the limbus. (E) H&E staining of 2.5-month-old Krox20-cKO mice shows absence of the Meibomian gland. (F) Immunofluorescence staining for K14 costained with PPARγ. (G) Oil Red O staining showing absence of meibum in Krox20-cKO mice. (HJ) Immunofluorescence staining of Meibomian gland with KROX20 and K14 antibodies. Dashed lines (red in E and white in GJ) demarcate the expected location of the Meibomian gland. n = 20 Krox20fl/fl mice, and n = 25 Krox20-cKO mice. Among mice analyzed, 100% of Krox20-cKO mice lack the Meibomian gland. Representative images are shown. Scale bar: 100 μm.