Multiple insecticide resistance in an infected population of the malaria vector Anopheles funestus in Benin.

Rousseau Djouaka; Jacob M. Riveron; Akadiri Yessoufou; Genevieve Tchigossou; Romaric Akoton; Helen Irving; Innocent Djegbe; Kabirou Moutairou; Razack Adeoti; Manuele Tamò; Victor Manyong; Charles Wondji

doi:10.1186/s13071-016-1723-y

Multiple insecticide resistance in an infected population of the malaria vector Anopheles funestus in Benin.

Rousseau Djouaka
, Jacob M. Riveron
, Akadiri Yessoufou
, Genevieve Tchigossou
, Romaric Akoton
, Helen Irving
, Innocent Djegbe
, Kabirou Moutairou
, Razack Adeoti
, Manuele Tamò
, Victor Manyong
, Charles Wondji

Vector Biology

Research output: Contribution to journal › Article › peer-review

67 Citations (Scopus)

Abstract

BACKGROUND

Knowledge on the spread and distribution of insecticide resistance in major malaria vectors such as Anopheles funestus is key to implement successful resistance management strategies across Africa. Here, by assessing the susceptibility status of an inland population of An. funestus Giles (Kpome) and investigating molecular basis of resistance, we show that multiple resistance and consistent plasmodium infection rate are present in Anopheles funestus populations from Kpome.

METHODS

The insecticide susceptibility level of collected Anopheles funestus was assessed. Synergist (PBO) was used to screen resistance mechanisms. The TaqMan technique was used for genotyping of insecticide resistant alleles and detecting plasmodium infection levels. The nested PCR was used to further assess the plasmodium infection rate.

RESULTS

The TaqMan analysis of plasmodial infections revealed an infection rate (18.2 %) of An. funestus in this locality. The WHO bioassays revealed a multiple phenotypic resistance profile for An. funestus in Kpome. This population is highly resistant to pyrethroids (permethrin and deltamethrin), organochlorines (DDT), and carbamates (bendiocarb). A reduced susceptibility was observed with dieldrin. Mortalities did not vary after pre-exposure to PBO for DDT indicating that cytochrome P450s play little role in DDT resistance in Kpome. In contrast, we noticed, a significant increase in mortalities when PBO was combined to permethrin suggesting the direct involvement of P450s in pyrethroid resistance. A high frequency of the L119F-GSTe2 DDT resistance marker was observed in the wild DDT resistant population (9 %RS and 91 %RR) whereas the A296S mutation was detected at a low frequency (1 %RS and 99 %SS).

CONCLUSION

The presence of multiple resistance in An. funestus populations in the inland locality of Kpome is established in this study as recently documented in the costal locality of Pahou. Data from both localities suggest that resistance could be widespread in Benin and this highlights the need for further studies to assess the geographical distribution of insecticide resistance across Benin and neighboring countries as well as a more comprehensive analysis of the resistance mechanisms involved.

Original language	English
Article number	453
Journal	Parasites and Vectors
Volume	9
Issue number	1
DOIs	https://doi.org/10.1186/s13071-016-1723-y
Publication status	Published - 17 Aug 2016

Keywords

Anopheles funestus
Benin
Insecticide resistance
Malaria
Malaria vector control
Resistance mechanisms

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1186/s13071-016-1723-yLicence: CC BY

Par Vec 9 453 Multiple insecticide resistanceFinal published version, 1.04 MBLicence: CC BY

Cite this

@article{2754453f7be34a23b249d051f75b1b62,

title = "Multiple insecticide resistance in an infected population of the malaria vector Anopheles funestus in Benin.",

abstract = "BACKGROUNDKnowledge on the spread and distribution of insecticide resistance in major malaria vectors such as Anopheles funestus is key to implement successful resistance management strategies across Africa. Here, by assessing the susceptibility status of an inland population of An. funestus Giles (Kpome) and investigating molecular basis of resistance, we show that multiple resistance and consistent plasmodium infection rate are present in Anopheles funestus populations from Kpome.METHODSThe insecticide susceptibility level of collected Anopheles funestus was assessed. Synergist (PBO) was used to screen resistance mechanisms. The TaqMan technique was used for genotyping of insecticide resistant alleles and detecting plasmodium infection levels. The nested PCR was used to further assess the plasmodium infection rate.RESULTSThe TaqMan analysis of plasmodial infections revealed an infection rate (18.2 \%) of An. funestus in this locality. The WHO bioassays revealed a multiple phenotypic resistance profile for An. funestus in Kpome. This population is highly resistant to pyrethroids (permethrin and deltamethrin), organochlorines (DDT), and carbamates (bendiocarb). A reduced susceptibility was observed with dieldrin. Mortalities did not vary after pre-exposure to PBO for DDT indicating that cytochrome P450s play little role in DDT resistance in Kpome. In contrast, we noticed, a significant increase in mortalities when PBO was combined to permethrin suggesting the direct involvement of P450s in pyrethroid resistance. A high frequency of the L119F-GSTe2 DDT resistance marker was observed in the wild DDT resistant population (9 \%RS and 91 \%RR) whereas the A296S mutation was detected at a low frequency (1 \%RS and 99 \%SS).CONCLUSIONThe presence of multiple resistance in An. funestus populations in the inland locality of Kpome is established in this study as recently documented in the costal locality of Pahou. Data from both localities suggest that resistance could be widespread in Benin and this highlights the need for further studies to assess the geographical distribution of insecticide resistance across Benin and neighboring countries as well as a more comprehensive analysis of the resistance mechanisms involved.",

keywords = "Anopheles funestus, Benin, Insecticide resistance, Malaria, Malaria vector control, Resistance mechanisms",

author = "Rousseau Djouaka and Riveron, \{Jacob M.\} and Akadiri Yessoufou and Genevieve Tchigossou and Romaric Akoton and Helen Irving and Innocent Djegbe and Kabirou Moutairou and Razack Adeoti and Manuele Tam{\`o} and Victor Manyong and Charles Wondji",

year = "2016",

month = aug,

day = "17",

doi = "10.1186/s13071-016-1723-y",

language = "English",

volume = "9",

journal = "Parasites and Vectors",

issn = "1756-3305",

publisher = "BioMed Central Ltd",

number = "1",

}

TY - JOUR

T1 - Multiple insecticide resistance in an infected population of the malaria vector Anopheles funestus in Benin.

AU - Djouaka, Rousseau

AU - Riveron, Jacob M.

AU - Yessoufou, Akadiri

AU - Tchigossou, Genevieve

AU - Akoton, Romaric

AU - Irving, Helen

AU - Djegbe, Innocent

AU - Moutairou, Kabirou

AU - Adeoti, Razack

AU - Tamò, Manuele

AU - Manyong, Victor

AU - Wondji, Charles

PY - 2016/8/17

Y1 - 2016/8/17

N2 - BACKGROUNDKnowledge on the spread and distribution of insecticide resistance in major malaria vectors such as Anopheles funestus is key to implement successful resistance management strategies across Africa. Here, by assessing the susceptibility status of an inland population of An. funestus Giles (Kpome) and investigating molecular basis of resistance, we show that multiple resistance and consistent plasmodium infection rate are present in Anopheles funestus populations from Kpome.METHODSThe insecticide susceptibility level of collected Anopheles funestus was assessed. Synergist (PBO) was used to screen resistance mechanisms. The TaqMan technique was used for genotyping of insecticide resistant alleles and detecting plasmodium infection levels. The nested PCR was used to further assess the plasmodium infection rate.RESULTSThe TaqMan analysis of plasmodial infections revealed an infection rate (18.2 %) of An. funestus in this locality. The WHO bioassays revealed a multiple phenotypic resistance profile for An. funestus in Kpome. This population is highly resistant to pyrethroids (permethrin and deltamethrin), organochlorines (DDT), and carbamates (bendiocarb). A reduced susceptibility was observed with dieldrin. Mortalities did not vary after pre-exposure to PBO for DDT indicating that cytochrome P450s play little role in DDT resistance in Kpome. In contrast, we noticed, a significant increase in mortalities when PBO was combined to permethrin suggesting the direct involvement of P450s in pyrethroid resistance. A high frequency of the L119F-GSTe2 DDT resistance marker was observed in the wild DDT resistant population (9 %RS and 91 %RR) whereas the A296S mutation was detected at a low frequency (1 %RS and 99 %SS).CONCLUSIONThe presence of multiple resistance in An. funestus populations in the inland locality of Kpome is established in this study as recently documented in the costal locality of Pahou. Data from both localities suggest that resistance could be widespread in Benin and this highlights the need for further studies to assess the geographical distribution of insecticide resistance across Benin and neighboring countries as well as a more comprehensive analysis of the resistance mechanisms involved.

AB - BACKGROUNDKnowledge on the spread and distribution of insecticide resistance in major malaria vectors such as Anopheles funestus is key to implement successful resistance management strategies across Africa. Here, by assessing the susceptibility status of an inland population of An. funestus Giles (Kpome) and investigating molecular basis of resistance, we show that multiple resistance and consistent plasmodium infection rate are present in Anopheles funestus populations from Kpome.METHODSThe insecticide susceptibility level of collected Anopheles funestus was assessed. Synergist (PBO) was used to screen resistance mechanisms. The TaqMan technique was used for genotyping of insecticide resistant alleles and detecting plasmodium infection levels. The nested PCR was used to further assess the plasmodium infection rate.RESULTSThe TaqMan analysis of plasmodial infections revealed an infection rate (18.2 %) of An. funestus in this locality. The WHO bioassays revealed a multiple phenotypic resistance profile for An. funestus in Kpome. This population is highly resistant to pyrethroids (permethrin and deltamethrin), organochlorines (DDT), and carbamates (bendiocarb). A reduced susceptibility was observed with dieldrin. Mortalities did not vary after pre-exposure to PBO for DDT indicating that cytochrome P450s play little role in DDT resistance in Kpome. In contrast, we noticed, a significant increase in mortalities when PBO was combined to permethrin suggesting the direct involvement of P450s in pyrethroid resistance. A high frequency of the L119F-GSTe2 DDT resistance marker was observed in the wild DDT resistant population (9 %RS and 91 %RR) whereas the A296S mutation was detected at a low frequency (1 %RS and 99 %SS).CONCLUSIONThe presence of multiple resistance in An. funestus populations in the inland locality of Kpome is established in this study as recently documented in the costal locality of Pahou. Data from both localities suggest that resistance could be widespread in Benin and this highlights the need for further studies to assess the geographical distribution of insecticide resistance across Benin and neighboring countries as well as a more comprehensive analysis of the resistance mechanisms involved.

KW - Anopheles funestus

KW - Benin

KW - Insecticide resistance

KW - Malaria

KW - Malaria vector control

KW - Resistance mechanisms

U2 - 10.1186/s13071-016-1723-y

DO - 10.1186/s13071-016-1723-y

M3 - Article

SN - 1756-3305

VL - 9

JO - Parasites and Vectors

JF - Parasites and Vectors

IS - 1

M1 - 453

ER -

Multiple insecticide resistance in an infected population of the malaria vector Anopheles funestus in Benin.

Abstract

Keywords

UN SDGs

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