FLP-15 modulates the amplitude of body bends during locomotion in Caenorhabditis elegans

Locomotion is essential for executing most behaviours. In Caenorhabditis elegans . Efficient locomotion is exhibited as a result of the coordination of excitatory and inhibitory signals from the nervous system onto the body-wall muscles. Although neurotransmitters play a vital role in maintaining and executing coordinated movements, neuropeptides have emerged as important players in the regulation and sustenance of locomotory states. In our previous study we explored the role of the neuropeptide FLP-15 in regulating reversal frequency during foraging behaviour in C. elegans . We were also interested in exploring other possible locomotory defects in flp-15 mutant animals. In this work we show that flp-15 mutants show an increased length of reversals during foraging resulting in defects in maintaining the direction of reversals. Mutants in flp-15 exhibited a “floral” pattern of reversals as opposed to near linear patterns of reversal in wild-type control animals. We further show that the defect in maintaining the direction of reversals could be due to increased amplitude of the body-bends with flp-15 mutants showing a large increase in the mean amplitude of body-bends. Our data suggests that FLP-15 partially functions through the G-protein coupled receptor (GPCR), NPR-3, to regulates the amplitude of body-bends. Finally, we show that loss of flp-15 leads to an increase in the expression of another neuropeptide, NLP-12, whose over expression has been implicated in causing increased amplitude of body-bends allowing us to speculate that the regulation of NLP-12 by FLP-15 may allow for the observed locomotory defects in flp-15 mutant animals.