The placenta plays a pivotal role in fetal growth control and is considered a major site of genetic conflict between maternal and paternal genomes within the conceptus and, in addition, the genome of the mother. Accordingly, placental development is a strictly controlled process, and both placental and fetal weights do not vary much in intraspecific crosses of laboratory mice (Mus musculus). In mouse interspecific crosses and backcrosses [(M. musculus x M. spretus) x M. musculus], tremendous variation of placental, but not of fetal weight was observed. We have studied trophoblast cell type distribution and differentiation, and their effect on the associated placentas and fetuses in such backcrosses. Differentiation of spongious trophoblast, but not size of materno-fetal interface, correlated with fetal weight. Giant fetuses were observed only if less than one third of the spongiotrophoblast was formed by glycogen cells. Thus, placental efficiency was inversely related to the amount of glycogen cells. This influence of a trophoblast-derived cell type on fetal growth was not anticipated. We conclude that: (1) glycogen cells are able to negatively modulate fetal growth by an as yet unidentified mechanism; (2) correlation between fetal and placental weights is weak or absent in interspecific hybrids; (3) impaired control over placental and embryonic development in hybrids may contribute to post-mating isolation of species.