PLoS Genetics (Feb 2020)

Octopamine neuron dependent aggression requires dVGLUT from dual-transmitting neurons.

  • Lewis M Sherer,
  • Elizabeth Catudio Garrett,
  • Hannah R Morgan,
  • Edmond D Brewer,
  • Lucy A Sirrs,
  • Harold K Shearin,
  • Jessica L Williams,
  • Brian D McCabe,
  • R Steven Stowers,
  • Sarah J Certel

DOI
https://doi.org/10.1371/journal.pgen.1008609
Journal volume & issue
Vol. 16, no. 2
p. e1008609

Abstract

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Neuromodulators such as monoamines are often expressed in neurons that also release at least one fast-acting neurotransmitter. The release of a combination of transmitters provides both "classical" and "modulatory" signals that could produce diverse and/or complementary effects in associated circuits. Here, we establish that the majority of Drosophila octopamine (OA) neurons are also glutamatergic and identify the individual contributions of each neurotransmitter on sex-specific behaviors. Males without OA display low levels of aggression and high levels of inter-male courtship. Males deficient for dVGLUT solely in OA-glutamate neurons (OGNs) also exhibit a reduction in aggression, but without a concurrent increase in inter-male courtship. Within OGNs, a portion of VMAT and dVGLUT puncta differ in localization suggesting spatial differences in OA signaling. Our findings establish a previously undetermined role for dVGLUT in OA neurons and suggests that glutamate uncouples aggression from OA-dependent courtship-related behavior. These results indicate that dual neurotransmission can increase the efficacy of individual neurotransmitters while maintaining unique functions within a multi-functional social behavior neuronal network.