Abstract
Neurexins are well known trans-synaptic cell adhesion molecules that are required for proper synaptic development and function across species. Beyond synapse organization and function, little is known about other roles Neurexins might have in the nervous system. Here we report novel phenotypic consequences of mutations in Drosophila neurexin (dnrx), which alters axonal microtubule organization and transport. We show that dnrx mutants display phenotypic similarities with the BMP receptor wishful thinking (wit) and one of the downstream effectors, futsch, which is a known regulator of microtubule organization and stability. dnrx has genetic interactions with wit and futsch. Loss of Dnrx also results in reduced levels of other downstream effectors of BMP signaling, phosphorylated-Mad and Trio. Interestingly, postsynaptic overexpression of the BMP ligand, Glass bottom boat, in dnrx mutants partially rescues the axonal transport defects but not the synapse undergrowth at the neuromuscular junctions. These data suggest that Dnrx and BMP signaling are involved in many diverse functions and that regulation of axonal MT organization and transport might be distinct from regulation of synaptic growth in dnrx mutants. Together, our work uncovers a novel function of Drosophila Neurexin and may provide insights into functions of Neurexins in vertebrates.
Highlights
The BMP pathway is a well established signaling pathway needed for the regulation of synapse assembly, maintenance, and function[13,14,15,16]
While the axonal transport defects resulting from Dnrx knockdown using both elav-Gal[4] (Fig. 1D) and OK6-Gal[4] (Fig. 1E) were not significantly different (Fig. 1K,L) when compared to one another, they were found to be milder than the dnrx mutants
We examined whether the classical readout of the BMP pathway, namely phosphorylated-mothers against decapentaplegic (pMad) levels are affected in dnrx mutant ventral nerve cord (VNC)
Summary
The BMP pathway is a well established signaling pathway needed for the regulation of synapse assembly, maintenance, and function[13,14,15,16]. In Drosophila, the BMP pathway has the postsynaptic muscle-derived ligand, Glass bottom boat (Gbb) that binds to the receptors Wishful thinking (Wit), Thickveins (Tkv), and Saxophone (Sax) at the NMJ and activates a cascade of downstream effectors. One of these effectors is the phosphorylated-mothers against decapentaplegic (pMad) in neurons. Postsynaptic overexpression of Gbb in dnrx mutants partially ameliorates axonal transport defects but not the NMJ undergrowth phenotype of dnrx mutants Together, these data suggest that Dnrx functions with components of the BMP signaling pathway to ensure proper MT organization and axonal transport which is crucial for proper neuronal function
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