Embryonic Rather than Extraembryonic Tissues Have More Impact on the Development of Placental Hyperplasia in Cloned Mice

Somatic cell cloning by nuclear transfer (NT) in mice is associated with hyperplastic placentas at term. To dissect the effects of embryonic and extraembryonic tissues on this clone-associated phenotype, we constructed diploid (2n) fused with (double left right arrow) tetraploid (4n) chimeras from NT- and fertilization-derived (FD) embryos. Generally, the 4n cells contributed efficiently to all the extraembryonic tissues but not to the embryo itself Embryos constructed by 2n NT double left right arrow 4n FD aggregation developed hyperplastic placentas (0.33 +/- 0.22 g) with a predominant contribution by NT-derived cells. Even when the population of FD-derived cells in placentas was increased using multiple FD embryos (up to four) for aggregation, most placentas remained hyperplastic (0.36 +/- 0.13 g). By contrast, placentas of the reciprocal combination, 2n FD double left right arrow 4n NT, were less hyperplastic (0.15 +/- 0.02 g). These nearly normal-looking placentas had a large proportion of NT-derived cells. Thus, embryonic rather than extraembryonic tissues had more impact on the onset of placental hyperplasia, and that the abnormal placentation in clones occurs in a noncell-autonomous manner. These findings suggest that for improvement of cloning efficiency we should understand the mechanisms regulating placentation, especially those of embryonic origin that might control the proliferation of trophoblastic lineage cells. (C) 2009 Elsevier Ltd. All rights reserved.