- Stensmyr MC & Caron SJC (2020). Neuroscience: The secret of Sauce Béarnaise syndrome is in the circuit . Vol. 30. Current Biology. Published, 12/2020.
- Li, J. & Mahoney B, Jacob, M and Caron SJC (2020). Visual input into the Drosophila melanogaster mushroom body. Cell Reports. Vol. 32. Published, 09/2020.
- Auer TO & Khallaf MA, Silbering AF, Zappia G, Ellis K, Hansson W, Jefferis GSXE, Caron S, Knaden M and Benton R. (2020). Olfactory receptor and circuit evolution promote host specialization. Nature. Vol. 579. Published, 04/2020.
- Neuroscience: Intelligence in the honeybee mushroom body. Current Biology, 27 (6) R220-223. Published, 03/20/2017.
The senses detect various physical features of the outside world. Photons, sound waves and chemicals activate different specialized receptors in peripheral sensory neurons. As sensory information can often be noisy, misleading or insufficient, the brain weighs the information gathered through different senses and integrates it into a unified percept. This multisensory integration enables the brain to form a richer and more reliable representation of the outside world. Although the question of how the brain forms a unified percept has intrigued philosophers, psychologists and neuroscientists for centuries, little is known about the exact neuronal and cellular mechanisms underlying multisensory integration.
Our lab is investigating multisensory integration in the Drosophila mushroom body. The mushroom body is a bilateral brain center formed from about 2,000 neurons, the so-called Kenyon cells. A large body of evidence collected over the past decades demonstrated that the mushroom body is the center where olfactory associative memories are formed and stored in the fly brain. Most Kenyon cells receive their input through the projection neurons of the antennal lobe, an olfactory processing center.
Although the mushroom body has been long studied for its role in olfaction, behavioral evidence suggests that it also processes information form other senses. We are currently determining which sensory modalities, other than olfaction, the mushroom body is connected to and how multisensory representations emerge from these connections. Our goal is to understand the extent and nature of cross-modal interactions at play when the brain represents and remembers complex, multimodal stimuli.
Most Kenyon cells receive their input through the projection neurons of the antennal lobe, an olfactory processing center formed from 50 or so glomeruli. Each of the sensory neurons covering the antennae expresses only one of about 50 olfactory receptor genes and the neurons expressing the same receptor converge in the antennal lobe where they innervate a single glomerulus. Because all sensory neurons that express the same olfactory receptor converge into one glomerulus, each odorant the fly encounters elicits a specific pattern of neural activity among the glomeruli. This is sometimes called an ‘odor-evoked map’.
The antennal lobe projection neurons relay information form individual glomeruli to the mushroom body and other brain centers. We have previously demonstrated that the antennal lobe map is discarded in the mushroom body. Individual Kenyon cells receive input from an apparently random set of glomeruli, seven on average. The glomeruli connected to a given Kenyon cell share no common biological features and the projection neurons detecting odors as diverse as pheromones and food smells often converge on individual Kenyon cells. Such random connections probably serve to maximize the memory function of the mushroom body, and may be a fundamental property of certain brain centers also in vertebrates. How such random connections are established during development is not known. This is one question our lab is actively investigating.
Despite the randomness, not all glomeruli are equal: some glomeruli make more connections to Kenyon cells than others, for instance DA1, a glomerulus activated by the pheromone 11-cis-vaccenyl acetate. This bias may reflect the ecology of a species. Connections to a glomerulus involved in detecting an important odor, such as that of a fruit, pathogen or pheromone, might become overrepresented or underrepresented during evolution. Our lab is investigating whether and how structured and unstructured wiring strategies emerge during evolution in different fly species.
- sensory systems
- memory and learning
- brain imaging
- Drosophila melanogaster
- XVIII International Symposium on Olfaction and Taste (virtual meeting). Other, Presented, 08/2020.
- Center for Computational Neuroscience, University of Washington (virtual visit). Other, Presented, 06/2020.
- PathMaker Program: Building Professional relationships. Other, Presented, 04/2020.
- Workshop on brain circuits, memory and computation, Columbia University (virtual workshop) . Other, Presented, 03/2020.
- 32nd Winter Conference in Neural Plasticity (Frigate Bay, St. Kitts and Nevis). Invited Talk/Keynote, Presented, 02/2020.
- Neuroscience Program Snowbird Symposium, University of Utah (Snowbird, USA). Invited Talk/Keynote, Presented, 02/2020.
- Thought Exchange: Biomimicry, The Leonardo (Salt Lake City, USA). Invited Talk/Keynote, Presented, 08/2019.
- Department of Biology, University of Texas at San Antonio. Invited Talk/Keynote, Presented, 08/2019.
- Gordon Research Conference: Neuroethology (Mount Snow, USA). Invited Talk/Keynote, Presented, 07/2019.
- Kavli workshop: Neural circuits and behavior of Drosophila (Kolympari, Greece). Invited Talk/Keynote, Presented, 06/2019.
- Neuroscience Initiative Seed Grant Symposium-University of Utah. Invited Talk/Keynote, Presented, 05/2019.
- Association for Chemoreception Sciences (Bonita Springs, USA). Invited Talk/Keynote, Presented, 04/2019.
- Department of Biology, Stanford University (Palo Alto, USA). Invited Talk/Keynote, Presented, 02/2019.
- Department of Developmental Genetics, New York University (New York, USA). Invited Talk/Keynote, Presented, 09/2018.
- AREADNE: Research in Encoding and Decoding Neural Ensembles (Santorini, Greece). Invited Talk/Keynote, Presented, 06/2018.
- NSF Neural Imaging Symposium, University of Utah (Salt Lake City, USA). Invited Talk/Keynote, Presented, 05/2018.
- Science Night Live! Seminar Series, University of Utah (Salt Lake City, USA). Invited Talk/Keynote, Presented, 04/2018.
- English, fluent.
- French, fluent.