Modulation of the combinatorial code of odorant receptor response patterns in odorant mixtures

Publication date: Available online 12 February 2020Source: Molecular and Cellular NeuroscienceAuthor(s): Claire A. de March, William B. Titlow, Tomoko Sengoku, Patrick Breheny, Hiroaki Matsunami, Timothy S. McClintockAbstractThe perception of odors relies on combinatorial codes consisting of odorant receptor (OR) response patterns to encode odor identity. Modulation of these patterns by odorant interactions at ORs potentially explains several olfactory phenomena: mixture suppression, unpredictable sensory outcomes, and the perception of odorant mixtures as unique objects. We determined OR response patterns to 4 odorants and 3 binary mixtures in vivo in mice, identifying 30 responsive ORs. These patterns typically had a few strongly responsive ORs and a greater number of weakly responsive ORs. ORs responsive to an odorant were often unrelated sequences distributed across several OR subfamilies. Mixture responses predicted pharmacological interactions between odorants, which were tested in vitro by heterologous expression of ORs in cultured cells, providing independent evidence confirming odorant agonists for 13 ORs and identifying both suppressive and additive effects. This included 11 instances of antagonism of ORs by an odorant, 1 instance of additive responses to a binary mixture, 1 instance of suppression of a strong agonist by a weak agonist, and the discovery of an inverse agonist for an OR. Interactions between odorants at ORs are common and in some cases correlate with...
Source: Molecular and Cellular Neuroscience - Category: Neuroscience Source Type: research