Abstract
In eutherian mammals, the embryonic cloaca is partitioned into genitourinary and anorectal canals by the urorectal septum. At the caudal end of the mouse embryo, the urorectal septum contributes to the perineum, which separates the anus from the external genitalia. Growth of the urorectal septum displaces cloacal endoderm to the surface of the perineum, where it is incorporated into epidermis, an enigmatic fate for endodermal cells. Here we show that endodermal cells differentiate into true epidermis in the perineum, expressing basal, spinous, and granular cell markers. Endodermal epidermis is lost through terminal differentiation and desquamation postnatally, when it is replaced by ectoderm. Live imaging and single-cell tracking reveal that ectodermal cells move at a faster velocity in a lateral-to-medial direction, converging towards the narrow band of endoderm between the anus and external genitalia. Although the perineum is sexually dimorphic, similar spatiotemporal patterns of cell movement were observed in males and females. These results demonstrate that cloacal endoderm differentiates into a non-renewing, transient epidermis at the midline of the perineum. Differential movement of endodermal and ectodermal cells suggests that perineum epidermis develops by convergent extension. These findings provide a foundation for further studies of perineum development and of sex-specific epidermal phenotypes.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
Funding information: National Institute of Diabetes and Digestive and Kidney Diseases, Grant/Award Numbers: K01DK105077, R01DK110408, and U01DK131548.