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Main Authors: Uddin, Mohammad Mosleh, Islam, Ashekul, Islam, Md Sujan, Ekra, Jannatul Efte, Watanabe, Kozo
Format: Artículo científico
Language:en
Published: Acta tropica 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40645467/
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author Uddin, Mohammad Mosleh
Islam, Ashekul
Islam, Md Sujan
Ekra, Jannatul Efte
Watanabe, Kozo
author_facet Uddin, Mohammad Mosleh
Islam, Ashekul
Islam, Md Sujan
Ekra, Jannatul Efte
Watanabe, Kozo
Uddin, Mohammad Mosleh
Islam, Ashekul
Islam, Md Sujan
Ekra, Jannatul Efte
Watanabe, Kozo
collection PubMed - marine biology
contents Insecticide susceptibility and knockdown resistance mutations in Aedes aegypti and Culex species in Bangladesh. Uddin, Mohammad Mosleh Islam, Ashekul Islam, Md Sujan Ekra, Jannatul Efte Watanabe, Kozo Animals Culex Insecticide Resistance Aedes Bangladesh Insecticides Pyrethrins Mutation Nitriles Acetylcholinesterase Electron Transport Complex IV Insect Proteins Mosquito Vectors Insecticide resistance in mosquito populations remains a formidable challenge for the control of vector-borne diseases, especially in developing countries such as Bangladesh. This study investigates known knockdown resistance (kdr) mutations associated with pyrethroid resistance in Aedes aegypti and Culex species mosquitoes collected from Dhaka and Tangail cities. Deltamethrin-based CDC-bottle bioassays showed that Aedes aegypti had resistance rates of 39.5 % at 1X and 3X concentrations, decreasing to 27.3 % at 5X. In contrast, the Culex pipiens complex showed resistance rates of 74 %, 65 %, 25 %, and 37 % at 1X, 3X, 5X, and 10X doses, respectively. Molecular identification via mitochondrial Cytochrome c Oxidase I (COI)- gene confirmed 100 % similarity to Aedes aegypti strains, while the Culex specimens clustered with the member of Culex pipiens species complex. Based on the Culex species-specific primer targeting acetylcholinesterase-2 (ace-2) gene, 16 out of 22 were identified as Culex quinquefasciatus. Genetic profiling of the VGSC gene revealed three notable kdr mutant patterns in Aedes aegypti: (1) 989PP + 1016GG, (2) 989PP + 1016GG + 1534CC, and (3) 989PP + 1016GG + 1534FC. Conversely, the Culex quinquefasciatus and the other member of Culex pipiens complex exhibited homozygous L1014F mutation across all samples. Intriguingly, the phenotypic resistance to deltamethrin in the bottle assay in both species suggests the influence of alternative resistance mechanisms. This study presents the first documented evidence in Bangladesh of three kdr mutations in Aedes aegypti and one in Culex quinquefasciatus/pipiens complex, providing a snapshot of the genetic landscape of insecticide resistance and underscoring the need for molecular surveillance.
format Artículo científico
id pubmed_40645467
institution PubMed
language en
publishDate 2025
publisher Acta tropica
record_format pubmed
spellingShingle Insecticide susceptibility and knockdown resistance mutations in Aedes aegypti and Culex species in Bangladesh.
Uddin, Mohammad Mosleh
Islam, Ashekul
Islam, Md Sujan
Ekra, Jannatul Efte
Watanabe, Kozo
Animals
Culex
Insecticide Resistance
Aedes
Bangladesh
Insecticides
Pyrethrins
Mutation
Nitriles
Acetylcholinesterase
Electron Transport Complex IV
Insect Proteins
Mosquito Vectors
Insecticide susceptibility and knockdown resistance mutations in Aedes aegypti and Culex species in Bangladesh. Uddin, Mohammad Mosleh Islam, Ashekul Islam, Md Sujan Ekra, Jannatul Efte Watanabe, Kozo Animals Culex Insecticide Resistance Aedes Bangladesh Insecticides Pyrethrins Mutation Nitriles Acetylcholinesterase Electron Transport Complex IV Insect Proteins Mosquito Vectors Insecticide resistance in mosquito populations remains a formidable challenge for the control of vector-borne diseases, especially in developing countries such as Bangladesh. This study investigates known knockdown resistance (kdr) mutations associated with pyrethroid resistance in Aedes aegypti and Culex species mosquitoes collected from Dhaka and Tangail cities. Deltamethrin-based CDC-bottle bioassays showed that Aedes aegypti had resistance rates of 39.5 % at 1X and 3X concentrations, decreasing to 27.3 % at 5X. In contrast, the Culex pipiens complex showed resistance rates of 74 %, 65 %, 25 %, and 37 % at 1X, 3X, 5X, and 10X doses, respectively. Molecular identification via mitochondrial Cytochrome c Oxidase I (COI)- gene confirmed 100 % similarity to Aedes aegypti strains, while the Culex specimens clustered with the member of Culex pipiens species complex. Based on the Culex species-specific primer targeting acetylcholinesterase-2 (ace-2) gene, 16 out of 22 were identified as Culex quinquefasciatus. Genetic profiling of the VGSC gene revealed three notable kdr mutant patterns in Aedes aegypti: (1) 989PP + 1016GG, (2) 989PP + 1016GG + 1534CC, and (3) 989PP + 1016GG + 1534FC. Conversely, the Culex quinquefasciatus and the other member of Culex pipiens complex exhibited homozygous L1014F mutation across all samples. Intriguingly, the phenotypic resistance to deltamethrin in the bottle assay in both species suggests the influence of alternative resistance mechanisms. This study presents the first documented evidence in Bangladesh of three kdr mutations in Aedes aegypti and one in Culex quinquefasciatus/pipiens complex, providing a snapshot of the genetic landscape of insecticide resistance and underscoring the need for molecular surveillance.
title Insecticide susceptibility and knockdown resistance mutations in Aedes aegypti and Culex species in Bangladesh.
topic Animals
Culex
Insecticide Resistance
Aedes
Bangladesh
Insecticides
Pyrethrins
Mutation
Nitriles
Acetylcholinesterase
Electron Transport Complex IV
Insect Proteins
Mosquito Vectors
url https://pubmed.ncbi.nlm.nih.gov/40645467/