Nhlh1 and Nhlh2, a global transcriptional mechanism regulating commissural axon projection via Robo3 activation

Abstract

SUMMARYCommissural neurons are highly heterogeneous in their developmental origins, neurotransmitter type and function, but all share the common feature of projecting axons across the midline. The floor plate-crossing commissural axons in mammals, from the spinal cord to the midbrain, are guided by a conserved molecular mechanism relying primarily on Netrin-1/DCC/Robo3 signaling. Up to date, we know very little about the upstream transcriptional program that specify commissural axon laterality, neither do we know if a common mechanism operates in all commissural neurons. Here, we identified a pair of highly related helix-loop-helix transcription factors, Nhlh1 and Nhlh2, as a global transcriptional mechanism that controls the laterality of all floor plate-crossing commissural axons. Forced expression of Nhlh1/2 induce ectopic Robo3 expression and contralateral axon projections. And mutant mice deficient in both genes show a remarkable reduction in Robo3 expression and a total lack of ventral commissures from the spinal cord to the midbrain. This global mechanism may interact with neuron type specific mechanism to achieve specific generation of commissural circuits.