PT  - JOURNAL ARTICLE
AU  - Clément Vinauger
AU  - Floris Van Breugel
AU  - Lauren T. Locke
AU  - Kennedy K.S. Tobin
AU  - Michael H. Dickinson
AU  - Adrienne Fairhall
AU  - Omar S. Akbari
AU  - Jeffrey A. Riffell
TI  - Visual-olfactory integration in the human disease vector mosquito, &lt;em&gt;Aedes aegypti&lt;/em&gt;
AID  - 10.1101/512996
DP  - 2019 Jan 01
TA  - bioRxiv
PG  - 512996
4099  - http://biorxiv.org/content/early/2019/01/07/512996.short
4100  - http://biorxiv.org/content/early/2019/01/07/512996.full
AB  - Mosquitoes rely on the integration of multiple sensory cues, including olfactory, visual, and thermal stimuli, to detect, identify and locate their hosts [1–4]. Although we increasingly know more about the role of chemosensory behaviours in mediating mosquito-host interactions [1], the role of visual cues remains comparatively less studied [3], and how the combination of olfactory and visual information is integrated in the mosquito brain remains unknown. In the present study, we used a tethered-flight LED arena, which allowed for quantitative control over the stimuli, to show that CO2 exposure affects target-tracking responses, but not responses to large-field visual stimuli. In addition, we show that CO2 modulates behavioural responses to visual objects in a time-dependent manner. To gain insight into the neural basis of this olfactory and visual coupling, we conducted two-photon microscopy experiments in a new GCaMP6s-expressing mosquito line. Imaging revealed that the majority of ROIs in the lobula region of the optic lobe exhibited strong responses to small-field stimuli, but showed little response to a large-field stimulus. Approximately 20% of the neurons we imaged were modulated when an attractive odour preceded the visual stimulus; these same neurons also elicited a small response when the odour was presented alone. By contrast, imaging in the antennal lobe revealed no modulation when visual stimuli were presented before or after the olfactory stimulus. Together, our results are the first to reveal the dynamics of olfactory modulation in visually evoked behaviours of mosquitoes, and suggest that coupling between these sensory systems is asymmetrical and time-dependent.