Permethrin resistance in Aedes aegypti: Genomic variants that confer knockdown resistance,recovery, and death |
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| Authors: | Karla Saavedra-Rodriguez Corey L. Campbell Saul Lozano Patricia Penilla-Navarro Alma Lopez-Solis Francisco Solis-Santoyo Americo D. Rodriguez Rushika Perera William C. Black IV |
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| Affiliation: | 1. Colorado State University, Department of Microbiology, Immunology and Pathology, Center of Vector-borne and Infectious Diseases, Fort Collins, Colorado, United States of America;2. Centers for Diseases Prevention and Control, Arboviral Diseases Branch, Fort Collins, Colorado, United States of America;3. Centro Regional de Investigacion en Salud Publica, Instituto Nacional de Salud Publica, Tapachula, Mexico;The University of North Carolina at Chapel Hill, UNITED STATES |
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| Abstract: | ![]()
Pyrethroids are one of the few classes of insecticides available to control Aedes aegypti, the major vector of dengue, chikungunya, and Zika viruses. Unfortunately, evolving mechanisms of pyrethroid resistance in mosquito populations threaten our ability to control disease outbreaks. Two common pyrethroid resistance mechanisms occur in Ae. aegypti: 1) knockdown resistance, which involves amino acid substitutions at the pyrethroid target site—the voltage-gated sodium channel (VGSC)—and 2) enhanced metabolism by detoxification enzymes. When a heterogeneous population of mosquitoes is exposed to pyrethroids, different responses occur. During exposure, a proportion of mosquitoes exhibit immediate knockdown, whereas others are not knocked-down and are designated knockdown resistant (kdr). When these individuals are removed from the source of insecticide, the knocked-down mosquitoes can either remain in this status and lead to dead or recover within a few hours. The proportion of these phenotypic responses is dependent on the pyrethroid concentration and the genetic background of the population tested. In this study, we sequenced and performed pairwise genome comparisons between kdr, recovered, and dead phenotypes in a pyrethroid-resistant colony from Tapachula, Mexico. We identified single-nucleotide polymorphisms (SNPs) associated with each phenotype and identified genes that are likely associated with the mechanisms of pyrethroid resistance, including detoxification, the cuticle, and insecticide target sites. We identified high association between kdr and mutations at VGSC and moderate association with additional insecticide target site, detoxification, and cuticle protein coding genes. Recovery was associated with cuticle proteins, the voltage-dependent calcium channel, and a different group of detoxification genes. We provide a list of detoxification genes under directional selection in this field-resistant population. Their functional roles in pyrethroid metabolism and their potential uses as genomic markers of resistance require validation. |
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