Lumper, C.; Koumoundourou, A.; Neukum, M.; Rauchfuss, S.; Kohler, U.; Hirt, B.; Graham, A.; Wizenmann, A.

Abstract The mesencephalic trigeminal nucleus (MTN) contains the proprioceptive sensory neurons that innervate mechanoreceptors in the jaw closing muscles. In the chick embryo, MTN neurons are the first neurons generated in the mesencephalon. They arise bilaterally adjacent to the roof plate and then extend their axons ventrally before projecting caudally towards the rhombencephalon. MTN axons remain in a mid - dorsoventral position and pioneer the lateral longitudinal fasciculus. Notably, MTN axons never cross the roof plate, raising the question of which mechanisms underlie this restriction. Here, we investigated the effects of tissue transplants on the guidance of MTN axons. We found that both the diencephalon and the notochord exert repulsive effects on MTN axons, which could partially explain their early trajectory. We have also analysed the potential roles of the guidance cues BMP2/4, GDF7, SLIT and NETRIN in MTN axon navigation, both in vivo and in vitro. We found no evidence for a role of BMP2/4 or GDF7 in directing MTN axons. However, SLIT-ROBO signaling was found to play a significant role. SLIT proteins are repulsive guidance cues expressed by roof and floor plate. Loss or reduced expression of ROBO2 led to aberrant axon meandering within the dorsal midbrain. Most axons eventually reoriented posteriorly, and only a small fraction crossed the roof plate. Unexpectedly, in the absence of ROBO2, MTN somata migrated into the roof plate, resulting in the loss of a defined roof plate region. Taken together, these results suggest that SLIT2-ROBO2 signaling not only prevents MTN axons from crossing the roof plate but also maintains MTN cell bodies adjacent to the roof plate. With regards to MTN neuron guidance, we conclude that additional roof plate - derived factors are likely to co-operate with SLIT proteins to prevent crossing of the roof plate. Another possibility could be that SLIT might signal through additional receptors.