More Like this

1. Olfactory preferences and chemical differences of fruit odors for Aedes aegypti mosquitoes

   https://doi.org/10.1242/jeb.250305  

   Leon-Noreña, Melissa; Tauxe, Genevieve M; Riffell, Jeffrey A (September 2025, Journal of Experimental Biology)

   ABSTRACT Feeding on the nutrients from fruits and flowers is vital for mosquitoes and increases their lifespan, reproduction and flight activity. Olfaction is a key sensory modality in mediating mosquito responses to nutrient sources. Previous studies have demonstrated that fruits and flowers can vary in attractiveness to mosquitoes, with some sources preferred over others. However, how the attractiveness of different fruits relates to the chemical composition of their odor and the responses they evoke from the mosquito's peripheral olfactory system is still not understood. In this study, we used closely related fruit species and their cultivars to examine how changes in odor chemistry can influence the fruit's attractiveness to Aedes aegypti mosquitoes. Our results show that mosquitoes are attracted to the odors of certain fruits (Mangifera indica, Prunus persica and Musa acuminata), whereas others (Pyrus communis and Citrus limon) were not attractive. Chemical analyses of the odors showed that attractive fruits have distinct chemical profiles, and amongst closely related fruits, minor changes in the relative proportions of odor compounds can modify their attractiveness. By contrast, electroantennogram responses showed similar responses across different fruits. Selectively altering the chemical proportion of a single compound in an odor was sufficient to either increase or decrease its attractiveness to levels similar to those of its closely related congener. Our results demonstrate that mosquitoes are sensitive to the proportions of compounds in attractive odors, which have implications for the olfactory processing of complex odor sources, such as those from plants or blood hosts. 

   more » « less
2. Manifold learning for olfactory habituation to strongly fluctuating backgrounds

   https://doi.org/10.1101/2025.05.26.656161  

   Bourassa, François_X P; François, Paul; Reddy, Gautam; Vergassola, Massimo (May 2025, bioRxiv)

   Abstract Animals rely on their sense of smell to survive, but important olfactory cues are mixed with confounding background odors that fluctuate due to atmospheric turbulence. It is unclear how the olfactory system habituates to such stochastic backgrounds to detect behaviorally important odors. Here, we explicitly consider the high-dimensional nature of odor coding, the natural statistics of odor fluctuations and the architecture of the early olfactory pathway. We show that their combination favors a manifold learning mechanism for olfactory habituation over alternatives based on predictive filtering. Manifold learning is implemented in our model by a biologically plausible network of inhibitory interneurons in the early olfactory pathway. We demonstrate that plasticity rules based on IBCM or online PCA are effective at implementing this mechanism in turbulent conditions and outperform previous models relying on mean background subtraction. Interneurons with an IBCM plasticity rule acquire selectivity to independently varying odors. This manifold learning mechanism offers a path towards distinguishing plasticity rules in experiments and could be leveraged by other biological circuits facing fluctuating environments. 

   more » « less
3. Spectral preferences of mosquitos are altered by odors

   https://doi.org/10.1242/jeb.250318  

   Blake, Adam J; Riffell, Jeffrey A (July 2025, Journal of Experimental Biology)

   ABSTRACT Vision underlies many important behaviors in insects generally and in mosquitos specifically. Mosquito vision plays a role in predator avoidance, mate finding, oviposition, locating vertebrate hosts and vectoring disease. Recent work has shown that when sensitized to CO2, the visual responses of Aedes aegypti are wavelength dependent, but little is known about how other olfactory stimuli can modulate visual responses. The visual cues associated with flowers, vertebrate hosts or oviposition sites differ substantially and it is possible that odors might prime the mosquito visual system to respond to these different resources. To investigate the interplay of olfactory and visual cues, we adapted previously used wind tunnel bioassays to use quasi-monochromatic targets (390–740 nm) created with novel LED synthesizers. We coupled these visual targets with CO2 and the odors representative of vertebrate hosts, floral nectar or oviposition sites and assessed responses via 3D tracking of female mosquitos. When CO2 alone was present, we observed a lower preference for wavelengths in the green portion of the visible spectrum with a gradual increase as wavelengths moved towards the violet and red ends of the spectrum. However, when odors associated with both flowers and oviposition sites were present, we observed significant increases in mosquito preference for green (475–575 nm) stimuli. In contrast, when vertebrate host odor was present, we saw increased preference for stimuli across the entire visible spectrum. These odor shifts in mosquito spectral preferences suggest these preferences are not fixed and shift depending on the behavioral context. 

   more » « less
4. Neuromodulation and differential learning across mosquito species

   https://doi.org/10.1098/rspb.2022.2118  

   Wolff, Gabriella H.; Lahondère, Chloé; Vinauger, Clément; Rylance, Elizabeth; Riffell, Jeffrey A. (January 2023, Proceedings of the Royal Society B: Biological Sciences)

   Mosquitoes can change their feeding behaviours based on past experiences, such as shifting from biting animals to biting humans or avoiding defensive hosts (Wolff & Riffell 2018J. Exp. Biol.221, jeb157131. (doi:10.1242/jeb.157131)). Dopamine is a critical neuromodulator for insects, allowing flexibility in their feeding preferences, but its role in the primary olfactory centre, the antennal lobe (AL), remains unclear (Vinaugeret al.2018Curr. Biol.28, 333–344.e8. (doi:10.1016/j.cub.2017.12.015)). It is also unknown whether mosquitoes can learn some odours and not others, or whether different species learn the same odour cues. We assayed aversive olfactory learning in four mosquito species with different host preferences, and found that they differentially learn odours salient to their preferred host. Mosquitoes that prefer humans learned odours found in mammalian skin, but not a flower odour, and a nectar-feeding species only learned a floral odour. Comparing the brains of these four species revealed significantly different innervation patterns in the AL by dopaminergic neurons. Calcium imaging in theAedes aegyptiAL and three-dimensional image analyses of dopaminergic innervation show that glomeruli tuned to learnable odours have significantly higher dopaminergic innervation. Changes in dopamine expression in the insect AL may be an evolutionary mechanism to adapt olfactory learning circuitry without changing brain structure and confer to mosquitoes an ability to adapt to new hosts. 

   more » « less
5. In mice, discrete odors can selectively promote the neurogenesis of sensory neuron subtypes that they stimulate

   https://doi.org/10.1101/2024.02.10.579748  

   Hossain, Kawsar; Smith, Madeline; Santoro, Stephen W (February 2024, bioRxiv)

   Abstract In mammals, olfactory sensory neurons (OSNs) are born throughout life, presumably solely to replace neurons lostviaturnover or injury. This assumption follows from the hypothesis that olfactory neurogenesis is strictly stochastic with respect to neuron subtype, as defined by the single odorant receptor allele that each neural precursor stochastically chooses out of hundreds of possibilities. This hypothesis is challenged by recent findings that the birthrates of a fraction of subtypes are selectively diminished by olfactory deprivation. These findings raise questions about how, and why, olfactory stimuli are required to promote the neurogenesis of some OSN subtypes, including whether the stimuli are generic (e.g., broadly activating odors or mechanical stimuli) or specific (e.g., discrete odorants). Based on RNA-seq and scRNA-seq analyses, we hypothesized that the neurogenic stimuli are specific odorants that selectively activate the same OSN subtypes whose birthrates are accelerated. In support of this, we have found, using subtype-specific OSN birthdating, that exposure to male and musk odors can accelerate the birthrates of responsive OSNs. Collectively, our findings reveal that certain odor experiences can selectively “amplify” specific OSN subtypes, and that persistent OSN neurogenesis may serve, in part, an adaptive function. 

   more » « less