Molecular surveillance of insecticide resistance in Phlebotomus argentipes targeted by indoor residual spraying for visceral leishmaniasis elimination in India

Reid, Emma; Deb, Rinki Michelle; Ali, Asgar; Singh, Rudra Pratap; Mishra, Prabhas Kumar; Shepherd, Josephine; Singh, Anand Mohan; Bharti, Aakanksha; Singh, Chandramani; Sharma, Sadhana; Coleman, Michael; Weetman, David

doi:10.1371/journal.pntd.0011734

Cited by 5 publications

(1 citation statement)

References 25 publications

(50 reference statements)

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“…Molecular markers could have a significant predictive value and ease the early detection of developing resistance [43]. As of 2017, several studies have monitored kdr mutations in sand fly populations from eight leishmaniasis endemic countries, in the Mediterranean basin, the Middle East and southeastern Asia [11,[44][45][46]. In all of the surveyed countries, apart from Italy [47], i.e.…”

Section: Insecticide Susceptibility Bioassays Imentioning

confidence: 99%

Development and application of species ID and insecticide resistance assays, for monitoring sand flyLeishmaniavectors in the Mediterranean basin and in the Middle East

Balaska,

Khajehali,

Mavridis

et al. 2024

Preprint

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AbstractsBackgroundDevelopment of insecticide resistance (IR) in sand fly populations is an upcoming issue of public health concern, threatening leishmaniasis mitigation efforts by insecticide- based vector control. There is a major knowledge gap in the IR status of wild populations worldwide, possibly attributed to the unavailability of specialized tools, such as bioassay protocols, species baseline susceptibility to insecticides and molecular markers, to monitor such phenomena in sand flies.Methodology/ Principal findingsSeveral sand fly populations from (semi-)rural regions of Greece, Turkey and Iran were sampled and identified to species, showing populations’ structure in accordance with previously reported data. Genotyping of known pyrethroid resistance-associated loci revealed the occurrence of voltage-gated sodium channel (vgsc) mutations in all surveyed countries. Knock-down resistance (kdr) mutation L1014F was prevalent in Turkish regions and L1014F and L1014S were recorded for the first time in Iran and in Turkey and Greece, respectively, yet in low frequencies. Moreover, CDC bottle bioassays against pyrethroids in mixed species populations from Greece indicated full susceptibility, using though the mosquito discriminating doses. In parallel, we established a novel individual bioassay protocol and applied it comparatively among distinctPhlebotomusspecies’ populations, to detect any possible divergent species-specific response to insecticides. Indeed, a significantly different knock-down rate betweenP. simiciandP. perfiliewiwas observed upon exposure to deltamethrin.Conclusions/SignificanceIR in sand flies is increasingly reported in leishmaniasis endemic regions, highlighting the necessity to generate additional monitoring tools, that could be implemented in relevant eco-epidemiological settings, in the context of IR management. Our molecular and phenotypic data add to the IR map in a macroarea with otherwise limited data coverage.Author SummaryPhlebotomine sand flies vector leishmaniasis to human and animals, a neglected tropical disease of the (sub-)tropics, displaying an expanding epidemiological tendency towards previously non-endemic regions. As leishmaniasis eradication largely relies on vectors’ insecticidal control, regular monitoring of insecticide resistance (IR) is a core element of integrated vector management. IR data are limited in sand fly populations worldwide though, among others due to the unavailability of robust molecular diagnostic and phenotyping tools. Here, we aim to characterise the pyrethroid resistance (PyR) status of populations originating from countries of the Mediterranean basin and the Middle East; i.e. Greece, Turkey and Iran. PyR-associated mutations were detected in all three countries, while the populations from Greece exhibited susceptibility upon exposure to deltamethrin in CDC bioassays. We established an individual bioassay protocol to enable IR monitoring in settings with multi- species population structure, and applied it comparatively among three distinctPhlebotomusspecies, revealing that they respond differently to insecticide treatment. Our study will facilitate systematic surveillance and evidence-based sand fly control in the endemic regions.

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Section: Insecticide Susceptibility Bioassays Imentioning

confidence: 99%

Development and application of species ID and insecticide resistance assays, for monitoring sand flyLeishmaniavectors in the Mediterranean basin and in the Middle East

Balaska,

Khajehali,

Mavridis

et al. 2024

Preprint

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Effect of indoor residual spraying on sandfly abundance and incidence of visceral leishmaniasis in India, 2016–22: an interrupted time-series analysis and modelling study

Coffeng,

de Vlas,

Singh

et al. 2024

The Lancet Infectious Diseases

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Comparative Genomics Uncovers the Evolutionary Dynamics of Detoxification and Insecticide Target Genes Across 11 Phlebotomine Sand Flies

Charamis,

Balaska,

Ioannidis

et al. 2024

Genome Biology and Evolution

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Sand flies infect more than 1 million people annually with Leishmania parasites and other bacterial and viral pathogens. Progress in understanding sand fly adaptations to xenobiotics has been hampered by the limited availability of genomic resources. To address this gap, we sequenced, assembled, and annotated the transcriptomes of 11 phlebotomine sand fly species. Subsequently, we leveraged these genomic resources to generate novel evolutionary insights pertaining to their adaptations to xenobiotics, including those contributing to insecticide resistance. Specifically, we annotated over 2,700 sand fly detoxification genes and conducted large-scale phylogenetic comparisons to uncover the evolutionary dynamics of the five major detoxification gene families: cytochrome P450s (CYPs), glutathione-S-transferases (GSTs), UDP-glycosyltransferases (UGTs), carboxyl/cholinesterases (CCEs), and ATP-binding cassette (ABC) transporters. Using this comparative approach, we show that sand flies have evolved diverse CYP and GST gene repertoires, with notable lineage-specific expansions in gene groups evolutionarily related to known xenobiotic metabolizers. Furthermore, we show that sand flies have conserved orthologs of (i) CYP4G genes involved in cuticular hydrocarbon biosynthesis, (ii) ABCB genes involved in xenobiotic toxicity, and (iii) two primary insecticide targets, acetylcholinesterase-1 (Ace1) and voltage gated sodium channel (VGSC). The biological insights and genomic resources produced in this study provide a foundation for generating and testing hypotheses regarding the molecular mechanisms underlying sand fly adaptations to xenobiotics.

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Molecular surveillance of insecticide resistance in Phlebotomus argentipes targeted by indoor residual spraying for visceral leishmaniasis elimination in India

Cited by 5 publications

References 25 publications

Development and application of species ID and insecticide resistance assays, for monitoring sand flyLeishmaniavectors in the Mediterranean basin and in the Middle East

Development and application of species ID and insecticide resistance assays, for monitoring sand flyLeishmaniavectors in the Mediterranean basin and in the Middle East

Effect of indoor residual spraying on sandfly abundance and incidence of visceral leishmaniasis in India, 2016–22: an interrupted time-series analysis and modelling study

Comparative Genomics Uncovers the Evolutionary Dynamics of Detoxification and Insecticide Target Genes Across 11 Phlebotomine Sand Flies

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