Abstract
The yellow fever mosquito Aedes aegypti is a prolific vector of arboviral and filarial diseases that largely relies on its sense of smell to find humans. To facilitate in-depth analysis of the neural circuitry underlying Ae. aegypti olfactory-driven behaviors, we generated an updated in vitro atlas for the antennal lobe olfactory brain region of this disease vector using two independent neuronal staining methods. We performed morphological reconstructions with replicate fixed, dissected and stained brain samples from adult male and female Ae. aegypti of the LVPib12 genome reference strain and determined that the antennal lobe in both sexes is comprised of approximately 80 discrete glomeruli. Guided by landmark features in the antennal lobe, we found 63 of these glomeruli are stereotypically located in spatially invariant positions within these in vitro preparations. A posteriorly positioned, mediodorsal glomerulus denoted MD1 was identified as the largest spatially invariant glomerulus in the antennal lobe. Spatial organization of glomeruli in a recently field-derived strain of Ae. aegypti from Puerto Rico was conserved, despite differences in antennal lobe shape relative to the inbred LVPib12 strain. This model in vitro atlas will serve as a useful community resource to improve antennal lobe annotation and anatomically map projection patterns of neurons expressing target genes in this olfactory center. It will also facilitate the development of chemotopic maps of odor representation in the mosquito antennal lobe to decode the molecular and cellular basis of Ae. aegypti attraction to human scent and other chemosensory cues.
Highlights
Aedes aegypti is a prolific vector of yellow fever, dengue, chikungunya, Zika and filariasis in tropical and subtropical regions around the world
The olfactory system of the yellow fever mosquito Aedes aegypti is highly tuned for the detection of human odorants, as well as other chemical cues influencing host and foodsearch behavior, egg-laying and mating
We report that landmark features of the Ae. aegypti antennal lobe morphology and spatial organization appear conserved between mosquito sexes and across geographically divergent strains of this mosquito species
Summary
Aedes aegypti is a prolific vector of yellow fever, dengue, chikungunya, Zika and filariasis in tropical and subtropical regions around the world. This highly anthropophilic mosquito species uses its sense of smell to track volatile chemicals present in human skin odor and breath and orientate towards us. In the Ae. aegypti adult, olfactory sensory neurons (OSNs) expressing chemoreceptors that detect odorants are primarily localized to peripheral olfactory organs [1,7,8,9,10] including the antennae, maxillary palps and proboscis. The antennal lobes are made up of clusters or foci of synaptic connectivity called glomeruli, where olfactory information is transmitted from OSNs to second order neurons [11,12,13]
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