Abnormalities in genes that regulate early brain development are known risk factors for neurodevelopmental disorders. Engrailed-2 (En2) is a homeodomain transcription factor with established roles in cerebellar patterning. En2 is highly expressed in the developing mid-hindbrain region, and En2 knockout (KO) mice exhibit major deficits in mid-hindbrain structures. However, En2 is also expressed in forebrain regions including the hippocampus, but its function is unknown. Previous studies have shown that the hippocampus of En2-KO mice exhibits reductions in its volume and cell numbers due to aberrant neurogenesis. Aberrant neurogenesis is due, in part, to noncell autonomous effects, specifically, reductions of innervating norepinephrine fibers from the locus coeruleus. In this study, we investigate possible cell autonomous roles of En2 in hippocampal neurogenesis. We examine proliferation, survival, and differentiation using cultures of hippocampal neurospheres of P7 wild-type (WT) and En2-KO hippocampal neural progenitor cells (NPCs). At 7 days, En2-KO neurospheres were larger on average than WT spheres and exhibited 2.5fold greater proliferation and 2-fold increase in apoptotic cells, similar to in vivo KO phenotype. Further, En2-KO cultures exhibited 40% less cells with neurite projections, suggesting decreased differentiation. Lastly, reestablishing En2 expression in En2-KO NPCs rescued excess proliferation. These results indicate that En2 functions in hippocampal NPCs by inhibiting proliferation and promoting survival and differentiation in a cell autonomous manner. More broadly, this study suggests that En2 impacts brain structure and function in diverse regions outside of the mid-hindbrain.
K E Y W O R D Sanimal models, engrailed-2, hippocampal neurogenesis, neural progenitor/stem cell cultures, neurodevelopmental disorders
Significance statementAlthough En2 function in mid-hindbrain development is widely characterized, consistent expression in forebrain regions has been reported, but its function(s) remains unknown. In this study, we found that relatively low levels of En2 in the hippocampus contribute to hippocampal neurogenesis in a cell-autonomous manner, by influencing proliferation, apoptosis, and differentiation of hippocampal NPCs. In conjunction with our previous results, these data indicate that En2 regulates hippocampal neurogenesis in both a cell autonomous and non-cell autonomous manner. In turn, | 725
