Abstract
Resistance to pyrethroids in mosquitoes is mainly caused by target site insensitivity known as knockdown resistance (kdr). In this work, we examined the point mutations present in portions of domains I, II, III, and IV of the sodium channel gene in Aedes aegypti mosquitoes from three Colombian municipalities. A partial region coding for the sodium channel gene from resistant mosquitoes was sequenced, and a simple allele-specific PCR-based assay (AS-PCR) was used to analyze mutations at the population level. The previously reported mutations, V1016I and F1534C, were found with frequencies ranging from 0.04 to 0.41, and 0.56 to 0.71, respectively, in the three cities. Moreover, a novel mutation, at 419 codon (V419L), was found in Ae. aegypti populations from Bello, Riohacha and Villavicencio cities with allelic frequencies of 0.06, 0.36, and 0.46, respectively. Interestingly, the insecticide susceptibility assays showed that mosquitoes from Bello were susceptible to λ-cyhalothrin pyrethroid whilst those from Riohacha and Villavicencio were resistant. A positive association between V419L and V1016I mutations with λ-cyhalothrin resistance was established in Riohacha and Villavicencio. The frequency of the F1534C was high in the three populations, suggesting that this mutation could be conferring resistance to insecticides other than λ-cyhalothrin, particularly type I pyrethroids. Further studies are required to confirm this hypothesis.
Highlights
Aedes aegypti (L.) is the main vector for Zika, dengue, and chikungunya viruses
With no suitable vaccines currently available, strategies to control these diseases are focused on reducing the mosquito population through the use of insecticides
Insecticide resistance in mosquitoes is caused by a number of mechanisms, with two in particular being the focus of the majority of studies: metabolic resistance and target site alterations
Summary
Aedes aegypti (L.) is the main vector for Zika, dengue, and chikungunya viruses. The diseases caused by these viruses are a rapidly growing public health problem worldwide, due to an increase in the mosquito’s population, to rapid human urbanization with population growth, climate parameters, and human migration [1,2]. During 2016, there was an alarming number of new cases for Zika, dengue, and chikungunya in Colombia, with incidences around 100,000, 83,000, and 23,000 cases, respectively [3]. With no suitable vaccines currently available, strategies to control these diseases are focused on reducing the mosquito population through the use of insecticides. Most dengue vector control programs underway are poorly implemented, resulting in the development of insecticide resistance. Insecticide resistance in mosquitoes is caused by a number of mechanisms, with two in particular being the focus of the majority of studies: metabolic resistance and target site alterations.
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