PLoS Genetics (Apr 2013)

Sensory neuron-derived eph regulates glomerular arbors and modulatory function of a central serotonergic neuron.

  • Ajeet Pratap Singh,
  • Rudra Nayan Das,
  • Gururaj Rao,
  • Aman Aggarwal,
  • Soeren Diegelmann,
  • Jan Felix Evers,
  • Hrishikesh Karandikar,
  • Matthias Landgraf,
  • Veronica Rodrigues,
  • K Vijayraghavan

DOI
https://doi.org/10.1371/journal.pgen.1003452
Journal volume & issue
Vol. 9, no. 4
p. e1003452

Abstract

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Olfactory sensory neurons connect to the antennal lobe of the fly to create the primary units for processing odor cues, the glomeruli. Unique amongst antennal-lobe neurons is an identified wide-field serotonergic neuron, the contralaterally-projecting, serotonin-immunoreactive deutocerebral neuron (CSDn). The CSDn spreads its termini all over the contralateral antennal lobe, suggesting a diffuse neuromodulatory role. A closer examination, however, reveals a restricted pattern of the CSDn arborization in some glomeruli. We show that sensory neuron-derived Eph interacts with Ephrin in the CSDn, to regulate these arborizations. Behavioural analysis of animals with altered Eph-ephrin signaling and with consequent arborization defects suggests that neuromodulation requires local glomerular-specific patterning of the CSDn termini. Our results show the importance of developmental regulation of terminal arborization of even the diffuse modulatory neurons to allow them to route sensory-inputs according to the behavioural contexts.