Abstract The placenta and developing brains of eutherian mammals are intimately connected and enriched for imprinted gene (IG) expression. In hybrids, the placenta is a hotspot for genetic and epigenetic incompatibilities that preferentially affect males. Whether the hybrid brain is similarly affected is an open question. We evaluated the effects of hybridization and placental dysregulation on neural gene expression (embryonic, juvenile, adult) and behaviour (juvenile, adult) in a cross between the house mouse (Mus musculus domesticus) and Algerian mouse (Mus spretus), in which transgressive expression of imprinted and X-linked genes is a prominent feature of undersized F1 male placentas. In hybrid hypothalamus, transgressive expression was mainly embryonic and highly male-biased. Although fewer genes were dysregulated in hybrid male embryonic hypothalamus relative to placenta, we infer a similar genetic architecture involving X–IG incompatibilities and incompatibilities between IGs and autosomal interaction partners. Hybrids had heightened anxiety-like behaviour and reduced activity relative to parental species, with a tendency towards larger behavioural differences in adult males. As the first study to our knowledge to characterize the effects of interspecific hybridization on neural gene expression and behaviour in a mammal, this work extends the scope of phenotypes impacted by intrinsic incompatibilities and demonstrates that the brain obeys Haldane’s rule.
Arévalo et al. (Wed,) studied this question.