Altered trophoblastic differentiation and increased trophoblastic invasiveness during delayed development in the short-tailed fruit bat, Carollia perspicillata

During pregnancy in the short-tailed fruit bat, lengthy post-implantational delays in conceptus development can occur in response to stress in captivi ty and seasonally in the wild. When comparisons were made between uteri car rying embryos in delay at the primitive streak stage and those growing more rapidly, many differences were noted. During delay the developing chorioal lantoic placenta was generally smaller, contained a higher ratio of cytotro phoblast to syncytiotrophoblast, and had been invaded only to a limited er; tent on its embryonic side by mesoderm. Furthermore, much of the cytotropho blast appeared relatively undifferentiated, randomly-oriented, linked prima rily by primitive junctions, and lacked a basal lamina. In contrast, in pla centae serving somite and limb-bud stage embryos, sizeable areas were noted that consisted only of more highly differentiated syncytiotrophoblast perf orated by maternal vascular spaces (trophospongium). The first contact of t he allantois with the developing placenta was also noted at the somite stag e, and this initiated widespread invasion of the placenta by mesenchyme and allantoic blood vessels. Wherever this invasion had occurred, the cytotrop hoblast between the mesenchyme and syncytiotrophoblast of the interhaemal b arrier consisted of a single, polarized layer of more differentiated cells with an associated basal lamina. Eventually, all of the trophospongium was invaded by cytotrophoblast and vascularized fetal mesenchyme. These observa tions suggest that in addition to its germinal function, cytotrophoblast in this bat may play a major role in controlling mesenchymal invasion and ang iogenesis on the embryonic side of the placenta. During the period of delay , highly invasive trophoblast is also released by the placenta. This invade s the myometrium and sometimes extrauterine tissues via intcrstitial migrat ion along maternal capillaries and veins. to 2001 Harcourt Publishers Ltd.