1. Novel phenotype of Wolbachia strain wPip in Aedes aegypti challenges assumptions on mechanisms of Wolbachia-mediated dengue virus inhibition
- Author
-
Johanna E. Fraser, Scott Leslie O'Neill, Tanya B. O’Donnell, Heather A. Flores, Johanna M. Duyvestyn, and Cameron P. Simmons
- Subjects
RNA viruses ,Physiology ,Disease Vectors ,Dengue virus ,Pathology and Laboratory Medicine ,medicine.disease_cause ,Mosquitoes ,Salivary Glands ,Dengue fever ,Dengue ,Medical Conditions ,0302 clinical medicine ,Aedes ,Medicine and Health Sciences ,Biology (General) ,0303 health sciences ,Transmission (medicine) ,Strain (biology) ,030302 biochemistry & molecular biology ,Eukaryota ,Body Fluids ,3. Good health ,Insects ,Phenotype ,Infectious Diseases ,Blood ,Medical Microbiology ,Viral Pathogens ,Viruses ,Wolbachia ,Pathogens ,Anatomy ,Research Article ,Arthropoda ,QH301-705.5 ,Immunology ,030231 tropical medicine ,Mosquito Vectors ,Aedes aegypti ,Aedes Aegypti ,Biology ,Microbiology ,Virus ,03 medical and health sciences ,Exocrine Glands ,Virology ,parasitic diseases ,Genetics ,medicine ,Animals ,Pest Control, Biological ,Molecular Biology ,Microbial Pathogens ,030304 developmental biology ,Innate immune system ,Bacteria ,Flaviviruses ,fungi ,Organisms ,Biology and Life Sciences ,RC581-607 ,biochemical phenomena, metabolism, and nutrition ,Dengue Virus ,medicine.disease ,biology.organism_classification ,Invertebrates ,Viral Replication ,Insect Vectors ,Species Interactions ,Viral replication ,bacteria ,Microbial Interactions ,Parasitology ,Immunologic diseases. Allergy ,Gram-Negative Bacterial Infections ,Zoology ,Entomology ,Digestive System - Abstract
The bacterial endosymbiont Wolbachia is a biocontrol tool that inhibits the ability of the Aedes aegypti mosquito to transmit positive-sense RNA viruses such as dengue and Zika. Growing evidence indicates that when Wolbachia strains wMel or wAlbB are introduced into local mosquito populations, human dengue incidence is reduced. Despite the success of this novel intervention, we still do not fully understand how Wolbachia protects mosquitoes from viral infection. Here, we demonstrate that the Wolbachia strain wPip does not inhibit virus infection in Ae. aegypti. We have leveraged this novel finding, and a panel of Ae. aegypti lines carrying virus-inhibitory (wMel and wAlbB) and non-inhibitory (wPip) strains in a common genetic background, to rigorously test a number of hypotheses about the mechanism of Wolbachia-mediated virus inhibition. We demonstrate that, contrary to previous suggestions, there is no association between a strain’s ability to inhibit dengue infection in the mosquito and either its typical density in the midgut or salivary glands, or the degree to which it elevates innate immune response pathways in the mosquito. These findings, and the experimental platform provided by this panel of genetically comparable mosquito lines, clear the way for future investigations to define how Wolbachia prevents Ae. aegypti from transmitting viruses., Author summary Dengue virus, transmitted by the Aedes aegypti mosquito, is one of the fastest-growing infectious diseases, causing an estimated 390 million human infections per year worldwide. Vaccines have limited efficacy and there are no approved therapeutics. This has driven the rise of novel vector control programs, in particular those that use the bacterium, Wolbachia, which prevents transmission of dengue and other human pathogenic viruses when stably introduced into Ae. aegypti populations. Although this is proving to be a highly effective method, the details of how this biocontrol tool works are not well understood. Here we characterise a new Wolbachia strain, wPip, and find that Ae. aegypti carrying wPip are still able to transmit dengue similar to mosquitoes that do not carry Wolbachia. This finding has allowed us to begin a rigorous program of comparative studies to determine which features of a Wolbachia strain determine whether it is antiviral. Understanding these mechanisms will enable us to predict the risk of viral resistance arising against Wolbachia and facilitate preparation of second-generation field release lines.
- Published
- 2020