The molecular receptive range of an olfactory receptor in vivo (Drosophila melanogaster Or22a)

Daniela Pelz, Tina Roeske, Zainulabeuddin Syed, Marien De Bruyne, C. Giovanni Galizia

Research output: Contribution to journalArticlepeer-review

75 Scopus citations

Abstract

Understanding how odors are coded within an olfactory system requires knowledge about its input. This is constituted by the molecular receptive ranges (MRR) of olfactory sensory neurons that converge in the glomeruli of the olfactory bulb (vertebrates) or the antennal lobe (AL, insects). Aiming at a comprehensive characterization of MRRs in Drosophila melanogaster we measured odor-evoked calcium responses in olfactory sensory neurons that express the olfactory receptor Or22a. We used an automated stimulus application system to screen [Ca2+] responses to 104 odors both in the antenna (sensory transduction) and in the AL (neuronal transmission). At 10-2 (vol/vol) dilution, 39 odors elicited at least a half-maximal response. For these odorants we established dose-response relationships over their entire dynamic range. We tested 15 additional chemicals that are structurally related to the most efficient odors. Ethyl hexanoate and methyl hexanoate were the best stimuli, eliciting consistent responses at dilutions as low as 10-9. Two substances led to calcium decrease, suggesting that Or22a might be constitutively active, and that these substances might act as inverse agonists, reminiscent of G-protein coupled receptors. There was no difference between the antennal and the AL MRR. Furthermore we show that Or22a has a broad yet selective MRR, and must be functionally described both as a specialist and a generalist. Both these descriptions are ecologically relevant. Given that adult Drosophila use approximately 43 ORs, a complete description of all MRRs appears now in reach.

Original languageEnglish
Pages (from-to)1544-1563
Number of pages20
JournalJournal of Neurobiology
Volume66
Issue number14
DOIs
StatePublished - Dec 2006

Keywords

  • Calcium imaging
  • In vivo recording
  • Molecular response profile
  • Olfaction
  • Receptor neurons

ASJC Scopus subject areas

  • General Neuroscience
  • Cellular and Molecular Neuroscience

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