Blood Meals With Active and Heat-Inactivated Serum Modifies the Gene Expression and Microbiome of Aedes albopictus.

Arley Calle-Tobón,Soheila Fatehi,Celois Moore,Berlin Londoño-Rentería,Jania Harrod,Paula Rozo-Lopez,Andres F Holguin-Rocha,Yoonseong Park,Guillermo L Rua-Uribe,Meagan Rippee-Brooks

doi:10.3389/fmicb.2021.724345

Arley Calle-Tobón, Soheila Fatehi + Show 8 more

Open Access

https://doi.org/10.3389/fmicb.2021.724345

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Abstract

The Asian “tiger mosquito” Aedes albopictus is currently the most widely distributed disease-transmitting mosquito in the world. Its geographical expansion has also allowed the expansion of multiple arboviruses like dengue, Zika, and chikungunya, to higher latitudes. Due to the enormous risk to global public health caused by mosquitoes species vectors of human disease, and the challenges in slowing their expansion, it is necessary to develop new and environmentally friendly vector control strategies. Among these, host-associated microbiome-based strategies have emerged as promising options. In this study, we performed an RNA-seq analysis on dissected abdomens of Ae. albopictus females from Manhattan, KS, United States fed with sugar and human blood containing either normal or heat-inactivated serum, to evaluate the effect of heat inactivation on gene expression, the bacteriome transcripts and the RNA virome of this mosquito species. Our results showed at least 600 genes with modified expression profile when mosquitoes were fed with normal vs. heat-inactivated-containing blood. These genes were mainly involved in immunity, oxidative stress, lipid metabolism, and oogenesis. Also, we observed bacteriome changes with an increase in transcripts of Actinobacteria, Rhodospirillaceae, and Anaplasmataceae at 6 h post-feeding. We also found that feeding with normal blood seems to particularly influence Wolbachia metabolism, demonstrated by a significant increase in transcripts of this bacteria in mosquitoes fed with blood containing normal serum. However, no differences were observed in the virome core of this mosquito population. These results suggest that heat and further inactivation of complement proteins in human serum may have profound effect on mosquito and microbiome metabolism, which could influence interpretation of the pathogen-host interaction findings when using this type of reagents specially when measuring the effect of Wolbachia in vector competence.

Highlights

Aedes (Stegomyia) albopictus (Skuse, 1894) is considered the medically important most invasive mosquito species in the world (Benedict et al, 2007)
Mosquitoes were divided according to the meal they received into sugar-fed (SF), inactivated blood-fed (IB), or normal blood-fed (NB)
This work is a continuation of our previous study in which we found that human complement proteins modify transcription in numerous Ae. aegypti genes, affecting multiple metabolic pathways, including the immune system (Giraldo-Calderón et al, 2020)

Summary

Introduction

Aedes (Stegomyia) albopictus (Skuse, 1894) is considered the medically important most invasive mosquito species in the world (Benedict et al, 2007). The expansion from its traditional habitat of tropical and subtropical regions to much cooler temperate regions has been attributed to its ecological plasticity, its ability to enter diapause to escape unfavorable seasonal conditions (Kraemer et al, 2019). These factors have further increased the risk of outbreaks in areas where mosquito-borne viral diseases are uncommon, such as Northern America and temperate Europe (Moreno-Madriñán and Turell, 2017, 2018; Barzon, 2018; Adams et al, 2019; Robert et al, 2020). Needless to say that Ae. albopictus has been responsible for several outbreaks of dengue (DENV) and chikungunya virus (CHIKV) in tropical areas around the globe (Rezza, 2012; Luo et al, 2017; Lindh et al, 2019)

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