Abstract
Triatomine bugs aggregate with conspecifics inside shelters during daylight hours. At dusk, they leave their refuges searching for hosts on which to blood feed. After finding a host, triatomines face the threat of being killed, because hosts often prey on them. As it is known that many parasites induce the predation of intermediate hosts to promote transmission, and that ingestion of Trypanosoma cruzi-infected bugs represents a very effective means for mammal infection, we hypothesized that trypanosomes induce infected bugs to take increased risk, and, as a consequence, be predated when approaching a host. Therefore, we evaluated whether the predation risk and predation rates endured by Rhodnius prolixus increase when infected with T. cruzi. Assays were performed in square glass arenas offering one central refuge to infected and uninfected 5th instar nymphs. A caged mouse was introduced in each arena after a three-day acclimation interval to activate sheltered insects and induce them to approach it. As hypothesized, a significantly higher proportion of infected insects was predated when compared with uninfected ones (36% and 19%, respectively). Indeed, T. cruzi-infected bugs took higher risk (Approximation Index = 0.642) when compared with healthy ones (Approximation Index = 0.302) and remained outside the shelters when the host was removed from the arena. Our results show that infection by T. cruzi induces bugs to assume higher risk and endure higher predation rates. We reveal a hitherto unknown trypanosome-vector interaction process that increases infected bug predation, promoting increased rates of robust oral transmission. The significant consequences of the mechanism revealed here make it a fundamental component for the resilient maintenance of sylvatic, peridomestic and domestic cycles.
Highlights
Triatomines (Hemiptera: Reduviidae) are hematophagous insects that obtain their meals from animals that reciprocally prey on them
The protocol is from CONCEA/MCT, which is associated with the American Association for Animal Science (AAAS), the Federation of European Laboratory Animal Science Associations (FELASA), the International Council for Animal Science (ICLAS) and the Association for Assessment and Accreditation of Laboratory Animal Care International (AAALAC)
Activity profiles were not altered by T. cruzi infection (Fig 1; GLM, p = 0.98) and no significant interaction between time and infection was found (GLM, p = 0.44)
Summary
Triatomines (Hemiptera: Reduviidae) are hematophagous insects that obtain their meals from animals that reciprocally prey on them. To decrease the risk of predation during foraging excursions, these insects take large and sparse blood meals through relatively short interactions, and present most of their activity during the night. Triatomines stay hidden inside shelters during most of their life, due to accentuated thigmotaxis and negative phototaxis [1]. Several endogenous events, such as the developmental maturation of host-related behavior [2], which includes the regulation of the expression of olfactory receptors [3], and nutritional status [4], trigger coming out of shelters as a response to the detection of host cues [5]. It is worth highlighting that these intervals during which bugs stay close to hosts and attempting to feed are those with increased predation risk
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