Dual nature of mouse periderm structure, function and fate.

Abstract

The periderm is the outer layer of embryonic skin, which is essential for the development of the epidermis and the establishment of its barrier function. In humans, the periderm is a monolayer and is shed prenatally. The structure and fate of the mouse periderm remain puzzling. Using electron microscopy of mouse skin between the embryonic day 14.5 and the postnatal Day2, we have assessed the periderm structure and its shedding patterns. In contrast to human periderm, the mouse periderm appears to be bilayered, comprising a presumably absorptive outer periderm with numerous microvilli and an inner periderm packed with specific (glycogen-containing?) granules. The desmosomes between the inner periderm and the underlying epidermis are scarce, and they are totally absent between the inner and the outer periderm. The inner and outer periderms in mice are shed at different stages of development: the outer periderm is shed in utero in conjunction with barrier acquisition (E16-18), while the inner periderm is retained postnatally. We assume that the bilayered structure of the mouse periderm and the postnatal retention of its inner layer represent the evolutionary adaptations in ancestral rodents which helps altricial newborns of their extant descendants to cope with acute dehydration right after birth and/or provides a substrate for proper bacterial colonization of newborn skin.