Larval crowding enhances dengue virus loads in Aedes aegypti, a relationship that might increase transmission in urban environments.

Larval crowding enhances dengue virus loads in Aedes aegypti, a relationship that might increase transmission in urban environments.

Publication date: Sep 10, 2024

Climate change and urbanization will alter the global distribution of disease vectors, changing the disease burden in yet unpredictable ways. Aedes aegypti is a mosquito responsible for transmitting dengue, Zika, chikungunya, and yellow fever viruses that breeds in containers associated with urban environments. We sought to understand how ambient temperature and larval densities in the immature aquatic phases determine adult life history traits and dengue virus loads post-infection. We predicted that larval crowding and high temperatures would both lead to smaller mosquitoes that might struggle to invest in an immune response and, hence, would exhibit high viral loads. We first examined larval densities from urban and rural areas via a meta-analysis. We then used these data to inform a laboratory-based 2×2 design examining the interacting effects of temperature (21 vs. 26^0C) and density (0. 2 vs. 0. 4 larvae/mL) on adult life history and dengue virus loads. We found that urban areas had an ~8-fold increase in larval densities compared to more rural sites. In the lab, we found that crowding had more impact on mosquito traits than temperature. Crowding led to slower development, smaller mosquitoes, less survival, lower fecundity, and higher viral loads, as predicted. The higher temperature led to faster development, reduced fecundity, and lower viral loads. The virus-reducing effect of higher temperature rearing was, however, overwhelmed by the impact of larval crowding when both factors were present. These data reveal complex interactions between the environmental effects experienced by immature mosquitoes and adult traits. They especially highlight the importance of crowding with respect to adult viral loads. Together, these data suggest that urban environments might enhance dengue virus loads and, therefore, possibly transmission, a concerning result given the increasing rates of urbanization globally.

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Concepts Keywords
Aegypti Aedes
Environmental Aegypti
Faster Crowding
Laboratory Dengue
Viruses Densities
Environments
Higher
Larval
Loads
Mosquitoes
Temperature
Traits
Urban
Viral
Virus

Semantics

Type Source Name
disease MESH dengue
disease IDO history
disease MESH infection
disease IDO immune response
drug DRUGBANK Tretamine
drug DRUGBANK Trestolone
disease MESH NEGLECTED TROPICAL DISEASES
pathway REACTOME Reproduction
disease MESH yellow fever
disease MESH Mosquito borne diseases
drug DRUGBANK Medical air
disease IDO pathogen
disease MESH pathogen transmission
disease IDO blood
disease MESH Starvation
disease IDO infectivity
disease IDO replication
drug DRUGBANK Methionine
drug DRUGBANK Indoleacetic acid
disease IDO colony
drug DRUGBANK Oxygen
drug DRUGBANK Water
drug DRUGBANK Sucrose
drug DRUGBANK Isoxaflutole
drug DRUGBANK Ranitidine
drug DRUGBANK Pentaerythritol tetranitrate
disease MESH viral load
drug DRUGBANK Edetic Acid
drug DRUGBANK Aspartame

Original Article

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