Mitogen-Activated Protein Kinase Kinase Kinase 1 Overexpression Disrupts Development of the Ocular Surface Epithelium

Mitogen-Activated Protein Kinase Kinase Kinase 1 (MAP3K1) is a key signaling molecule essential for eyelid closure during embryogenesis. In mice, Map3k1 knockout leads to a fully penetrant eye-open at birth (EOB) phenotype due to disrupted MAPK signaling, abnormal epithelial differentiation, and morphogenesis. To further explore the roles of MAP3K1 in ocular development, we generated a Cre-inducible gain-of-function transgenic mouse, designated as Map3k1TG, and crossed it with Lens epithelial (Le)-Cre mice to drive MAP3K1 overexpression in developing ocular surface epithelium (OSE). Map3k1TG;Le-Cre embryos exhibited ocular defects including premature eyelid closure, lens degeneration, and corneal edema. While corneal epithelial differentiation remained intact, the lens epithelium degenerated with lens formation compromised. Eyelid epithelium was markedly thickened, containing cells with aberrant keratin (K)14/K10 co-expression. Genetic rescue experiments revealed that Map3k1TG;Le-Cre restored eyelid closure in Map3k1 knockout mice, whereas MAP3K1 deficiency attenuated the epithelial thickening caused by transgene expression. Mechanistically, MAP3K1 overexpression enhanced c-Jun phosphorylation in vivo and activated JNK-c-Jun, WNT, TGFβ, and Notch signaling and promoted keratinocyte proliferation and migration in vitro. These findings highlight a dose-sensitive role for MAP3K1 in regulating epithelial proliferation, differentiation, and morphogenesis during eyelid development.