Molecular and Biochemical Detection of Insecticide Resistance in the Leishmania Vector, Phlebotomus papatasi (Diptera: Psychodidae) to Dichlorodiphenyltrichloroethane and Pyrethroids, in Central Iran

Molecular and Biochemical Detection of Insecticide Resistance in the Leishmania Vector, Phlebotomus papatasi (Diptera: Psychodidae) to Dichlorodiphenyltrichloroethane and Pyrethroids, in Central Iran

The aim of the present study was to explore resistance markers and possible biochemical resistance mechanisms in the Phlebotomine sand fly Phlebotomus papatasi in Esfahan Province, central Iran. Homogenous resistant strains of sand flies were obtained by exposing P. papatasi collected from Esfahan t...

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Published in:Journal of medical entomology Vol. 59; no. 4; pp. 1347 - 1354
Main Authors: Shirani-Bidabadi, Leila, Oshaghi, Mohammad Ali, Enayati, Ahmad Ali, Akhavan, Amir Ahmad, Zahraei-Ramazani, Ali Reza, Yaghoobi-Ershadi, Mohammad Reza, Rassi, Yavar, Aghaei-Afshar, Abass, Koosha, Mona, Arandian, Mohammad Hossein, Ghanei, Maryam, Ghassemi, Marzieh, Vatandoost, Hassan
Format: Journal Article
Language:English
Published: US Entomological Society of America 01-07-2022
Oxford University Press
Subjects:
biochemical
Colonies
Cross-resistance
Cyhalothrin
DDT
Deltamethrin
Detoxification
Enzymatic activity
Enzyme activity
Enzymes
Esterase
Esterases
Glutathione
insecticide
Insecticide resistance
Insecticides
Leishmania
molecular
Mutation
Oxidases
Permethrin
Pesticide resistance
Pesticides
Phlebotomus papatasi
Pyrethroids
resistance
sand fly
Sequence analysis
Sodium channels (voltage-gated)
Transferases
VECTOR CONTROL, PEST MANAGEMENT, RESISTANCE, REPELLENTS
Iran
insecticide
molecular
biochemical
resistance
sand fly
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Abstract The aim of the present study was to explore resistance markers and possible biochemical resistance mechanisms in the Phlebotomine sand fly Phlebotomus papatasi in Esfahan Province, central Iran. Homogenous resistant strains of sand flies were obtained by exposing P. papatasi collected from Esfahan to a single diagnostic dose of DDT. The adults from the colony were tested with papers impregnated with four pyrethroid insecticides: Permethrin 0.75%, Deltamethrin 0.05%, Cyfluthrin 0.15%, and Lambdacyhalothrin 0.05% to determine levels of cross-resistance. To discover the presence of mutations, a 440 base pair fragment of the voltage gated sodium channel (VGSC) gene was amplified and sequenced in both directions for the susceptible and resistant colonies. We also assayed the amount of four enzymes that play a key role in insecticide detoxification in the resistant colonies. A resistance ratio (RR) of 2.52 folds was achieved during the selection of resistant strains. Sequence analysis revealed no knockdown resistance (kdr) mutations in the VGSC gene. Enzyme activity ratio of the resistant candidate and susceptible colonies were calculated for α-esterases (3.78), β-esterases (3.72), mixed function oxidases (MFO) (3.21), and glutathione-S-transferases (GST) (1.59). No cross-resistance to the four pyrethroids insecticides was observed in the DDT resistant colony. The absence of kdr mutations in the VGSC gene suggests that alterations in esterase and MFO enzymes are responsible for the resistant of P. papatasi to DDT in central Iran. This information could have significant predictive utility in managing insecticide resistant in this Leishmania vector.
AbstractList The aim of the present study was to explore resistance markers and possible biochemical resistance mechanisms in the Phlebotomine sand fly Phlebotomus papatasi in Esfahan Province, central Iran. Homogenous resistant strains of sand flies were obtained by exposing P. papatasi collected from Esfahan to a single diagnostic dose of DDT. The adults from the colony were tested with papers impregnated with four pyrethroid insecticides: Permethrin 0.75%, Deltamethrin 0.05%, Cyfluthrin 0.15%, and Lambdacyhalothrin 0.05% to determine levels of cross-resistance. To discover the presence of mutations, a 440 base pair fragment of the voltage gated sodium channel (VGSC) gene was amplified and sequenced in both directions for the susceptible and resistant colonies. We also assayed the amount of four enzymes that play a key role in insecticide detoxification in the resistant colonies. A resistance ratio (RR) of 2.52 folds was achieved during the selection of resistant strains. Sequence analysis revealed no knockdown resistance (kdr) mutations in the VGSC gene. Enzyme activity ratio of the resistant candidate and susceptible colonies were calculated for [alpha]-esterases (3.78), [beta]-esterases (3.72), mixed function oxidases (MFO) (3.21), and glutathione-S-transferases (GST) (1.59). No cross-resistance to the four pyrethroids insecticides was observed in the DDT resistant colony. The absence of kdr mutations in the VGSC gene suggests that alterations in esterase and MFO enzymes are responsible for the resistant of P papatasi to DDT in central Iran. This information could have significant predictive utility in managing insecticide resistant in this Leishmania vector. Keywords: molecular, biochemical, resistance, sand fly, insecticide
Abstract The aim of the present study was to explore resistance markers and possible biochemical resistance mechanisms in the Phlebotomine sand fly Phlebotomus papatasi in Esfahan Province, central Iran. Homogenous resistant strains of sand flies were obtained by exposing P. papatasi collected from Esfahan to a single diagnostic dose of DDT. The adults from the colony were tested with papers impregnated with four pyrethroid insecticides: Permethrin 0.75%, Deltamethrin 0.05%, Cyfluthrin 0.15%, and Lambdacyhalothrin 0.05% to determine levels of cross-resistance. To discover the presence of mutations, a 440 base pair fragment of the voltage gated sodium channel (VGSC) gene was amplified and sequenced in both directions for the susceptible and resistant colonies. We also assayed the amount of four enzymes that play a key role in insecticide detoxification in the resistant colonies. A resistance ratio (RR) of 2.52 folds was achieved during the selection of resistant strains. Sequence analysis revealed no knockdown resistance (kdr) mutations in the VGSC gene. Enzyme activity ratio of the resistant candidate and susceptible colonies were calculated for α-esterases (3.78), β-esterases (3.72), mixed function oxidases (MFO) (3.21), and glutathione-S-transferases (GST) (1.59). No cross-resistance to the four pyrethroids insecticides was observed in the DDT resistant colony. The absence of kdr mutations in the VGSC gene suggests that alterations in esterase and MFO enzymes are responsible for the resistant of P. papatasi to DDT in central Iran. This information could have significant predictive utility in managing insecticide resistant in this Leishmania vector.
The aim of the present study was to explore resistance markers and possible biochemical resistance mechanisms in the Phlebotomine sand fly Phlebotomus papatasi in Esfahan Province, central Iran. Homogenous resistant strains of sand flies were obtained by exposing P. papatasi collected from Esfahan to a single diagnostic dose of DDT. The adults from the colony were tested with papers impregnated with four pyrethroid insecticides: Permethrin 0.75%, Deltamethrin 0.05%, Cyfluthrin 0.15%, and Lambdacyhalothrin 0.05% to determine levels of cross-resistance. To discover the presence of mutations, a 440 base pair fragment of the voltage gated sodium channel (VGSC) gene was amplified and sequenced in both directions for the susceptible and resistant colonies. We also assayed the amount of four enzymes that play a key role in insecticide detoxification in the resistant colonies. A resistance ratio (RR) of 2.52 folds was achieved during the selection of resistant strains. Sequence analysis revealed no knockdown resistance (kdr) mutations in the VGSC gene. Enzyme activity ratio of the resistant candidate and susceptible colonies were calculated for α-esterases (3.78), β-esterases (3.72), mixed function oxidases (MFO) (3.21), and glutathione-S-transferases (GST) (1.59). No cross-resistance to the four pyrethroids insecticides was observed in the DDT resistant colony. The absence of kdr mutations in the VGSC gene suggests that alterations in esterase and MFO enzymes are responsible for the resistant of P. papatasi to DDT in central Iran. This information could have significant predictive utility in managing insecticide resistant in this Leishmania vector.
Abstract The aim of the present study was to explore resistance markers and possible biochemical resistance mechanisms in the Phlebotomine sand fly Phlebotomus papatasi in Esfahan Province, central Iran. Homogenous resistant strains of sand flies were obtained by exposing P. papatasi collected from Esfahan to a single diagnostic dose of DDT. The adults from the colony were tested with papers impregnated with four pyrethroid insecticides: Permethrin 0.75%, Deltamethrin 0.05%, Cyfluthrin 0.15%, and Lambdacyhalothrin 0.05% to determine levels of cross-resistance. To discover the presence of mutations, a 440 base pair fragment of the voltage gated sodium channel (VGSC) gene was amplified and sequenced in both directions for the susceptible and resistant colonies. We also assayed the amount of four enzymes that play a key role in insecticide detoxification in the resistant colonies. A resistance ratio (RR) of 2.52 folds was achieved during the selection of resistant strains. Sequence analysis revealed no knockdown resistance (kdr) mutations in the VGSC gene. Enzyme activity ratio of the resistant candidate and susceptible colonies were calculated for α-esterases (3.78), β-esterases (3.72), mixed function oxidases (MFO) (3.21), and glutathione-S-transferases (GST) (1.59). No cross-resistance to the four pyrethroids insecticides was observed in the DDT resistant colony. The absence of kdr mutations in the VGSC gene suggests that alterations in esterase and MFO enzymes are responsible for the resistant of P. papatasi to DDT in central Iran. This information could have significant predictive utility in managing insecticide resistant in this Leishmania vector.
The aim of the present study was to explore resistance markers and possible biochemical resistance mechanisms in the Phlebotomine sand fly Phlebotomus papatasi in Esfahan Province, central Iran. Homogenous resistant strains of sand flies were obtained by exposing P. papatasi collected from Esfahan to a single diagnostic dose of DDT. The adults from the colony were tested with papers impregnated with four pyrethroid insecticides: Permethrin 0.75%, Deltamethrin 0.05%, Cyfluthrin 0.15%, and Lambdacyhalothrin 0.05% to determine levels of cross-resistance. To discover the presence of mutations, a 440 base pair fragment of the voltage gated sodium channel (VGSC) gene was amplified and sequenced in both directions for the susceptible and resistant colonies. We also assayed the amount of four enzymes that play a key role in insecticide detoxification in the resistant colonies. A resistance ratio (RR) of 2.52 folds was achieved during the selection of resistant strains. Sequence analysis revealed no knockdown resistance (kdr) mutations in the VGSC gene. Enzyme activity ratio of the resistant candidate and susceptible colonies were calculated for [alpha]-esterases (3.78), [beta]-esterases (3.72), mixed function oxidases (MFO) (3.21), and glutathione-S-transferases (GST) (1.59). No cross-resistance to the four pyrethroids insecticides was observed in the DDT resistant colony. The absence of kdr mutations in the VGSC gene suggests that alterations in esterase and MFO enzymes are responsible for the resistant of P papatasi to DDT in central Iran. This information could have significant predictive utility in managing insecticide resistant in this Leishmania vector.
Audience Academic
Author Vatandoost, Hassan
Oshaghi, Mohammad Ali
Ghanei, Maryam
Zahraei-Ramazani, Ali Reza
Arandian, Mohammad Hossein
Akhavan, Amir Ahmad
Koosha, Mona
Shirani-Bidabadi, Leila
Yaghoobi-Ershadi, Mohammad Reza
Rassi, Yavar
Aghaei-Afshar, Abass
Ghassemi, Marzieh
Enayati, Ahmad Ali
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  organization: Research Center of Tropical and Infectious Diseases, Kerman University of Medical Sciences, Kerman, Iran
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  givenname: Mohammad Ali
  orcidid: 0000-0003-3004-0364
  surname: Oshaghi
  fullname: Oshaghi, Mohammad Ali
  organization: Department of Medical Entomology and Vector Control, School of Public Health, Tehran University of Medical Sciences, Tehran, Iran
– sequence: 3
  givenname: Ahmad Ali
  orcidid: 0000-0001-6861-0719
  surname: Enayati
  fullname: Enayati, Ahmad Ali
  organization: Department of Medical Entomology and Vector Control, School of Public Health, Mazandaran University of Medical Sciences, Sari, Iran
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  givenname: Amir Ahmad
  orcidid: 0000-0003-2855-6054
  surname: Akhavan
  fullname: Akhavan, Amir Ahmad
  organization: Institute for Environmental Research, Tehran University of Medical Sciences, Tehran, Iran
– sequence: 5
  givenname: Ali Reza
  orcidid: 0000-0001-7820-3586
  surname: Zahraei-Ramazani
  fullname: Zahraei-Ramazani, Ali Reza
  organization: Department of Medical Entomology and Vector Control, School of Public Health, Tehran University of Medical Sciences, Tehran, Iran
– sequence: 6
  givenname: Mohammad Reza
  surname: Yaghoobi-Ershadi
  fullname: Yaghoobi-Ershadi, Mohammad Reza
  organization: Department of Medical Entomology and Vector Control, School of Public Health, Tehran University of Medical Sciences, Tehran, Iran
– sequence: 7
  givenname: Yavar
  orcidid: 0000-0002-2998-6630
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CitedBy_id crossref_primary_10_1089_vbz_2023_0085
crossref_primary_10_55446_IJE_2023_1355
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IsPeerReviewed true
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Issue 4
Keywords insecticide
molecular
biochemical
resistance
sand fly
Language English
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PublicationCentury 2000
PublicationDate 2022-07-01
PublicationDateYYYYMMDD 2022-07-01
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  year: 2022
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PublicationDecade 2020
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PublicationTitle Journal of medical entomology
PublicationTitleAlternate J Med Entomol
PublicationYear 2022
Publisher Entomological Society of America
Oxford University Press
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Paeporn (2022071317485880500_CIT0026) 2004; 21
Shirani-Bidabadi (2022071317485880500_CIT0033) 2017; 176
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Snippet The aim of the present study was to explore resistance markers and possible biochemical resistance mechanisms in the Phlebotomine sand fly Phlebotomus papatasi...
Abstract The aim of the present study was to explore resistance markers and possible biochemical resistance mechanisms in the Phlebotomine sand fly Phlebotomus...
Abstract The aim of the present study was to explore resistance markers and possible biochemical resistance mechanisms in the Phlebotomine sand fly Phlebotomus...
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SubjectTerms biochemical
Colonies
Cross-resistance
Cyhalothrin
DDT
Deltamethrin
Detoxification
Enzymatic activity
Enzyme activity
Enzymes
Esterase
Esterases
Glutathione
insecticide
Insecticide resistance
Insecticides
Leishmania
molecular
Mutation
Oxidases
Permethrin
Pesticide resistance
Pesticides
Phlebotomus papatasi
Pyrethroids
resistance
sand fly
Sequence analysis
Sodium channels (voltage-gated)
Transferases
VECTOR CONTROL, PEST MANAGEMENT, RESISTANCE, REPELLENTS
Title Molecular and Biochemical Detection of Insecticide Resistance in the Leishmania Vector, Phlebotomus papatasi (Diptera: Psychodidae) to Dichlorodiphenyltrichloroethane and Pyrethroids, in Central Iran
URI http://www.bioone.org/doi/abs/10.1093/jme/tjac031
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