Mindin-α-M-Integrin endocytosis activates STAT3 to maintain keratinocyte stemness

Keratinocyte stem cell fate in skin regeneration and carcinomas is orchestrated by a complex integration of niche signals and intracellular signalling cascades. However, the subcellular organization and dynamic regulation of these pathways remain poorly understood. Here, we uncover the intracellular signalling mechanism initiated by the interaction between the extracellular matrix protein Mindin and αM-integrin receptor (CD11b), leading to activation of the transcription factor STAT3, a key regulator of keratinocyte stemness. We have found that the F-Spondin domain of Mindin is the minimal region required for integrin engagement and downstream signalling. This interaction promotes endocytosis of the Mindin-CD11b complex into early endosomes, which in turn activates STAT3. Notably, we found that the non-receptor tyrosine kinase Src regulates this endocytosis, revealing a previously undefined route of STAT3 activation. Finally, we demonstrate the functional requirement of this Mindin-CD11b endocytosis-driven STAT3 signalling in maintaining stemness in a keratinocyte cancer stem cell model. These findings illuminate a subcellular mechanism by which Mindin-integrin signalling regulates keratinocyte stemness.