Mosquitoes do not like bitter: new perspectives for biorational repellents

Author:

Lazzari Claudio R.ORCID,Ortega-Insaurralde IsabelORCID,Esnault Jérémy,Costa Eloïse,Crespo José E.,Barrozo Romina B.ORCID

Abstract

AbstractChemical repellents play a crucial role in personal protection, serving as essential elements in reducing the transmission of vector-borne diseases. A biorational perspective that extends beyond the olfactory system as the classical target may be a promising direction to move. The taste system provides reliable information regarding food quality, helping animals discriminate between nutritious and potentially harmful food sources, often associated with a bitter taste. Understanding how bitter compounds affect feeding in blood-sucking insects could unveil novel molecules with the potential to reduce biting and feeding. Here, we investigated the impact of two naturally occurring bitter compounds, caffeine and quinine, on the feeding decisions in femaleAedes aegyptimosquitoes at two distinctive phases: (1) when the mosquito explores the biting substrate using external taste sensors and (2) when the mosquito takes a sip of food and tastes it using internal taste receptors. We assessed the aversiveness of bitter compounds through both an artificial feeding condition (artificial feeder test) and a real host (arm-in-cage test). Our findings revealed different sensitivities in the external and internal sensory pathways responsible for detecting bitter taste inAe. aegypti. Internal detectors exhibited responsiveness to lower doses compared to the external sensors. Quinine exerted a more pronounced negative impact on biting and feeding activity than caffeine. The implications of our findings are discussed in the context of mosquito food recognition and the potential practical implications for personal protection.

Publisher

Cold Spring Harbor Laboratory

Reference27 articles.

1. The mosquito taste system and disease control

2. Food recognition in hematophagous insects;Curr. Opin. Insect Sci,2019

3. Barton-Browne, L. (1977). Host-related responses and their suppression: Some behavioral considerations, in Chemical Control of Insect Behavior: Theory and Application, H. H. Shorey and J. J. McKelvey (Eds.), New York: Wiley, pp. 117–127.

4. The mysterious multi-modal repellency of DEET

5. Aedes aegypti Mosquitoes Use Their Legs to Sense DEET on Contact

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