Cyclical dermal micro-niche switching governs the morphological infradian rhythm of mouse zigzag hair.

Biological rhythms are involved in almost all types of biological processes, not only physiological processes but also morphogenesis. Currently, how periodic morphological patterns of tissues/organs in multicellular organisms form is not fully understood. Here, using mouse zigzag hair, which has 3 bends, we found that a change in the combination of hair progenitors and their micro-niche and subsequent bend formation occur every three days. Chimeric loss-of-function and gain-of-function of Ptn and Aff3, which are upregulated immediately before bend formation, resulted in defects in the downward movement of the micro-niche and the rhythm of bend formation in an in vivo hair reconstitution assay. Our study demonstrates the periodic change in the combination between progenitors and micro-niche, which is vital for the unique infradian rhythm. Biological rhythms influence physiology and morphogenesis, though how these influence periodic pattern formation remains unclear. Here the authors show that the infradian rhythm observed in zigzag hairs is regulated by hair progenitors and their micro-niche and influences hair shaft bending. [ABSTRACT FROM AUTHOR]