Placentation in Necromys lasiurus (Rodentia, Cricetidae, Sigmodontinae): characteristics of the placental erytrophagocytosis, transport and yolk sac inversion and versatility

Murine rodents are well investigated in regard to placentation, but data for other groups such as cricetids including New World mice or Sigmodontinae are sparse. Recently the placenta and fetal membranes are regarded to be promising sources for obtaining stem cells. In particular, the yolk sac is structurally diverse and shows important functions throughout gestation. For this reason, this study aims to describe the chorioallantoic and yolk sac placentation in Necromys lasiurus. In addition, the potential of the yolk sac as a source for mesenchymal stem cells that are not well studied so far will be evaluated. In total, 10 individuals from early gestation to near term were investigated by means of histology, immunohistochemistry and electron microscopy as well as cell culture and differentiation, flow citrometry and immunocytochemistry. The discoidal chorioallantoic placenta was organized in a labyrinth zone, junctional zone, and decidua. The labyrinth was most import for maternal-fetal exchange processes. It possessed a hemotrichorial barrier of about 2.41 µm thickness near term. The junctional zone included syncytial areas and cytotrophoblasts. Trophoblast giant cells were located between the junctional zone and decidua as well as in the lateral margins of the placenta. The morphology of the inverted visceral yolk sac varies according to its location and relationship with the placenta and uterus. When cultured, the adherent cells of the yolk sac formed fibroblastoid colonies (92.13%) and expressed mesenchymal stem cells markers, and some hematopoietic precursor cells markers. They showed successful osteogenic, adipogenic, and chondrogenic differentiation and did not develop tumors when transferred to nude mice. Thus, these cells resulted as stem cells with promising therapeutic values for cell therapy. (AU)