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1.
Rev Cubana Med Trop ; 64(3): 256-67, 2012.
Artigo em Espanhol | MEDLINE | ID: mdl-23424802

RESUMO

INTRODUCTION: the esterase enzymes have been defined as the mechanism of resistance to temephos in Aeges aegypti in Cuba, which is the most used larvacide worldwide. OBJECTIVE: to partially characterize the activity of esterases in exposed and nonexposed larvae at sublethal doses of temephos in an Aedes aegypti strain that is resistant to this product. METHODS: a susceptible reference Aedes aegypti strain (Rockefeller) and another temephos-resistant strain (SANtemFII) were used. The larvae from SANtemF11 strain were exposed to lethal concentration 90 (LC90) of temephos (1 ppm); 10 % of the surviving larvae after 24 hours (SANtem[24 h] was moved to clean water, with no exposure to insecticide for 24 hours (SANtem [48 h]). The activity of esterases was partially characterized in these larvae through biochemical assays and gel-polyacrylamide electrophoresis. The molecular weight of esterase A 4 (ESt. A4) was estimated with the support of sodium duodecyl sulophate (SDS-PAGE). RESULTS: the activity of esterases in SANtemF11 was significantly higher than in Rockefeller strain. Significant reduction of the activity of esterases in surviving larvae was observed (SANtemF11 [24 h], but it increased 24 h later without exposure to temephos. The zymogram showed that 10% of larvae that survived from temephos action, just the esterase A4 band increased if compared with those of SAntemF11. The estimated molecular weight of esterase A4 was 58 kDa. CONCLUSIONS: the presence of a specific band of esterase (58 kDa) in surviving larvae confirmed the role of these enzymes in insecticidal resistance. The diagnosis of the function of the esterases in resistance to temephos through biochemical tests should not be made in larvae exposed to sublethal doses of this insecticide, in order to avoid false negatives.


Assuntos
Aedes/enzimologia , Esterases/fisiologia , Inseticidas , Temefós , Animais , Resistência a Inseticidas/fisiologia
2.
Rev Cubana Med Trop ; 62(3): 217-23, 2010.
Artigo em Espanhol | MEDLINE | ID: mdl-23437552

RESUMO

INTRODUCTION: resistance to organophosphorus insecticides was diagnosed in Aedes aegypti (Linnaeus, 1762) from Santiago de Cuba in 1997 and some of them are still used up to date; hence the need of ascertaining how the insecticidal resistance has changed in recent times, particularly in 2009. OBJECTIVE: to evaluate the resistance to organophosporus insecticides in larvae from Santiago de Cuba collected in 2009, and its variation in comparison with that observed in 1997; and to determine the frequency of occurrence of resistance mechanisms on the basis of high esterase activity and its classification. METHODS: resistance to organophosphorus insecticides such as malathion, pirimiphos, methyl, phenitrotion, phention, temephos and clorpiriphos in larvae by using the WHO recommended methodology. The esterase mechanism was identified through biochemical assays and polyacrylamide gel electrophoresis. RESULTS: larvae from the Santiago de Cuba strain were susceptible to malathion, pirimiphos, methyl and phenitrothion; there was no variation with the results achieved in a Santiago de Cuba strain in 1997, moderate resistance to phenthion and high resistance to temephos and chlorpiriphos were observed. When comparing these results with those of 1997, it was noted that resistance to the three insecticides increased in the 1997-2009 period. In the Santiago de Cuba strain 2009, it was shown that esterase activity was very high at a rate of 0.7. The presence of an amplified type B esterase with relative mobility of 0.95 cm was detected, which did not exist in the reference strain. CONCLUSIONS: resistance to insecticides and its mechanisms are highly variable, even in the same species subjected to various intensities in the insecticidal use, therefore, it is necessary to constantly monitor both aspects at local level in the course of time, with a view to an effective vector control program.


Assuntos
Aedes , Inseticidas , Compostos Organofosforados , Animais , Cuba , Resistência a Inseticidas
3.
Rev. cuba. med. trop ; 64(3): 256-267, jul.-sept. 2012.
Artigo em Espanhol | CUMED | ID: cum-55699

RESUMO

Introducción: las enzimas esterasas han sido identificadas como mecanismo de resistencia a temefos en Aedes aegypti de Cuba, larvicida más utilizado en el mundo. Objetivo: caracterizar parcialmente la actividad de esterasas en larvas expuestas y no expuestas a dosis subletales de temefos en una cepa de Aedes aegypti resistente a este insecticida. Métodos: se utilizó una cepa de Aedes aegypti de referencia susceptible (Rockefeller) y otra resistente a temefos (SANtemF11). Se expusieron las larvas de la cepa SANtemF11 a la concentración letal 90 (CL90) de temefos (1 ppm), 10 por ciento de larvas sobrevivientes a las 24 h (SANtem [24 h]) se transfirieron a agua limpia y sin exposición a insecticidas por otras 24 h (SANtem [48 h]). Se caracterizó de modo parcial, en estas larvas, la actividad de esterasas a través de ensayos bioquímicos y electroforesis en gel de poliacrilamida. Se estimó por duodecil sulfato de sodio (SDS-PAGE) el peso molecular de la esterasa (Est. A4). Resultados: la actividad de esterasas en la cepa SANtemF11 resultó significativamente mayor que en Rockefeller. Se observó una disminución significativa de la actividad de esterasas en las larvas sobrevivientes (SANtemF11 [24 h]), la cual se recuperó 24 h después sin exposición a temefos. En el zimograma se observó que en 10 % de las larvas sobrevivientes a temefos, solo apareció incrementada la banda de esterasa A4, en comparación con las observadas en SANtemF11. El peso molecular estimado de la esterasa A4 fue de 58 kDa. Conclusiones: la presencia de una banda específica de esterasa (58 kDa), en las larvas sobrevivientes a la selección con temefos, confirma su papel en la resistencia a este insecticida. Diagnosticar la función de las esterasas en la resistencia a temefos, a través de ensayos bioquímicos, no debe realizarse en larvas expuestas a dosis subletales de este insecticida, para evitar falsos negativos(AU)


Introduction: the esterase enzymes have been defined as the mechanism of resistance to temephos in Aeges aegypti in Cuba, which is the most used larvacide worldwide. Objective: to partially characterize the activity of esterases in exposed and non-exposed larvae at sublethal doses of temephos in an Aedes aegypti strain that is resistant to this product. Methods: a susceptible reference Aedes aegypti strain (Rockefeller) and another temephos-resistant strain (SANtemFII) were used. The larvae from SANtemF11 strain were exposed to lethal concentration 90 (LC90) of temephos (1 ppm); 10 % of the surviving larvae after 24 hours (SANtem[24 h] was moved to clean water, with no exposure to insecticide for 24 hours (SANtem [48 h]). The activity of esterases was partially characterized in these larvae through biochemical assays and gel-polyacrylamide electrophoresis. The molecular weight of esterase A 4 (ESt. A4) was estimated with the support of sodium duodecyl sulophate (SDS-PAGE). Results: the activity of esterases in SANtemF11 was significantly higher than in Rockefeller strain. Significant reduction of the activity of esterases in surviving larvae was observed (SANtemF11 [24 h], but it increased 24 h later without exposure to temephos. The zymogram showed that 10% of larvae that survived from temephos action, just the esterase A4 band increased if compared with those of SAntemF11. The estimated molecular weight of esterase A4 was 58 kDa. Conclusions: the presence of a specific band of esterase (58 kDa) in surviving larvae confirmed the role of these enzymes in insecticidal resistance. The diagnosis of the function of the esterases in resistance to temephos through biochemical tests should not be made in larvae exposed to sublethal doses of this insecticide, in order to avoid false negatives(AU)


Assuntos
Animais , Aedes/enzimologia , Esterases/fisiologia , Inseticidas , Temefós , Resistência a Inseticidas/fisiologia
4.
Rev. cuba. med. trop ; 64(3): 256-267, jul.-sep. 2012.
Artigo em Espanhol | LILACS | ID: lil-653844

RESUMO

Introducción: las enzimas esterasas han sido identificadas como mecanismo de resistencia a temefos en Aedes aegypti de Cuba, larvicida más utilizado en el mundo. Objetivo: caracterizar parcialmente la actividad de esterasas en larvas expuestas y no expuestas a dosis subletales de temefos en una cepa de Aedes aegypti resistente a este insecticida. Métodos: se utilizó una cepa de Aedes aegypti de referencia susceptible (Rockefeller) y otra resistente a temefos (SANtemF11). Se expusieron las larvas de la cepa SANtemF11 a la concentración letal 90 (CL90) de temefos (1 ppm), 10 % de larvas sobrevivientes a las 24 h (SANtem [24 h]) se transfirieron a agua limpia y sin exposición a insecticidas por otras 24 h (SANtem [48 h]). Se caracterizó de modo parcial, en estas larvas, la actividad de esterasas a través de ensayos bioquímicos y electroforesis en gel de poliacrilamida. Se estimó por duodecil sulfato de sodio (SDS-PAGE) el peso molecular de la esterasa (Est. A4). Resultados: la actividad de esterasas en la cepa SANtemF11 resultó significativamente mayor que en Rockefeller. Se observó una disminución significativa de la actividad de esterasas en las larvas sobrevivientes (SANtemF11 [24 h]), la cual se recuperó 24 h después sin exposición a temefos. En el zimograma se observó que en 10 % de las larvas sobrevivientes a temefos, solo apareció incrementada la banda de esterasa A4, en comparación con las observadas en SANtemF11. El peso molecular estimado de la esterasa A4 fue de 58 kDa. Conclusiones: la presencia de una banda específica de esterasa (58 kDa), en las larvas sobrevivientes a la selección con temefos, confirma su papel en la resistencia a este insecticida. Diagnosticar la función de las esterasas en la resistencia a temefos, a través de ensayos bioquímicos, no debe realizarse en larvas expuestas a dosis subletales de este insecticida, para evitar falsos negativos.


Introduction: the esterase enzymes have been defined as the mechanism of resistance to temephos in Aeges aegypti in Cuba, which is the most used larvacide worldwide. Objective: to partially characterize the activity of esterases in exposed and non-exposed larvae at sublethal doses of temephos in an Aedes aegypti strain that is resistant to this product. Methods: a susceptible reference Aedes aegypti strain (Rockefeller) and another temephos-resistant strain (SANtemFII) were used. The larvae from SANtemF11 strain were exposed to lethal concentration 90 (LC90) of temephos (1 ppm); 10 % of the surviving larvae after 24 hours (SANtem[24 h] was moved to clean water, with no exposure to insecticide for 24 hours (SANtem [48 h]). The activity of esterases was partially characterized in these larvae through biochemical assays and gel-polyacrylamide electrophoresis. The molecular weight of esterase A 4 (ESt. A4) was estimated with the support of sodium duodecyl sulophate (SDS-PAGE). Results: the activity of esterases in SANtemF11 was significantly higher than in Rockefeller strain. Significant reduction of the activity of esterases in surviving larvae was observed (SANtemF11 [24 h], but it increased 24 h later without exposure to temephos. The zymogram showed that 10% of larvae that survived from temephos action, just the esterase A4 band increased if compared with those of SAntemF11. The estimated molecular weight of esterase A4 was 58 kDa. Conclusions: the presence of a specific band of esterase (58 kDa) in surviving larvae confirmed the role of these enzymes in insecticidal resistance. The diagnosis of the function of the esterases in resistance to temephos through biochemical tests should not be made in larvae exposed to sublethal doses of this insecticide, in order to avoid false negatives.


Assuntos
Animais , Aedes/enzimologia , Esterases/fisiologia , Inseticidas , Temefós , Resistência a Inseticidas/fisiologia
5.
Rev. cuba. med. trop ; 62(3)sep.-dic. 2010. graf
Artigo em Espanhol | CUMED | ID: cum-53046

RESUMO

INTRODUCCIÓN: la resistencia a insecticidas organofosforados en Santiago de Cuba fue diagnosticada en Aedes aegypti (Linnaeus, 1762) en 1997, y alguno de ellos se han continuado utilizando hasta la fecha, de ahí la necesidad de conocer cómo ha variado la resistencia desde entonces, hasta fechas más recientes, año 2009. OBJETIVO: evaluar la resistencia a insecticidas organofosforados en larvas de Santiago de Cuba, colectadas en 2009 y su variación con respecto a 1997. Determinar la frecuencia en que aparece el mecanismo de resistencia, basado en la alta actividad de esterasas y su clasificación. MÉTODOS: se evaluó la resistencia a los insecticidas organofosforados, malation, pirimifos metil, fenitrotion, fention, temefos y clorpirifos en larvas mediante la metodología recomendada por la Organización Mundial de la Salud. El mecanismo de esterasas se determinó a través de ensayos bioquímicos y electroforesis en gel de poliacrilamida. RESULTADOS: las larvas de la cepa de Santiago de Cuba resultaron susceptibles a malation, pirimifos metil y fenitrotion y no hubo variación con los resultados obtenidos en una cepa de Santiago de Cuba de 1997, se observó moderada resistencia a fention y alta a temefos y clorpirifos. Al comparar estos resultados con los obtenidos en 1997, se observó un incremento de la resistencia a los tres insecticidas en el período 1997-2009. En la cepa de Santiago de Cuba de 2009 se demostró que las esterasas se encontraron con una alta actividad a una frecuencia de 0,7. Se observó la presencia de una esterasa tipo B amplificada, con un valor de movilidad relativa de 0,95 cm, la cual no se encontró en la cepa susceptible de referencia. CONCLUSIONES: la resistencia a insecticidas y sus mecanismos es un fenómeno sumamente variable, aun en la misma especie sometida a distintas intensidades de aplicación de insecticidas, de ahí que su monitoreo constante de forma local y en el tiempo sea una necesidad para un programa de control de vectores (AU)


INTRODUCTION: resistance to organophosphorus insecticides was diagnosed in Aedes aegypti (Linnaeus, 1762) from Santiago de Cuba in 1997 and some of them are still used up to date; hence the need of ascertaining how the insecticidal resistance has changed in recent times, particularly in 2009. OBJECTIVE: to evaluate the resistance to organophosporus insecticides in larvae from Santiago de Cuba collected in 2009, and its variation in comparison with that observed in 1997; and to determine the frequency of occurrence of resistance mechanisms on the basis of high esterase activity and its classification. METHODS: resistance to organophosphorus insecticides such as malathion, pirimiphos, methyl, phenitrotion, phention, temephos and clorpiriphos in larvae by using the WHO recommended methodology. The esterase mechanism was identified through biochemical assays and polyacrylamide gel electrophoresis. RESULTS: larvae from the Santiago de Cuba strain were susceptible to malathion, pirimiphos, methyl and phenitrothion; there was no variation with the results achieved in a Santiago de Cuba strain in 1997, moderate resistance to phenthion and high resistance to temephos and chlorpiriphos were observed. When comparing these results with those of 1997, it was noted that resistance to the three insecticides increased in the 1997-2009 period. In the Santiago de Cuba strain 2009, it was shown that esterase activity was very high at a rate of 0,7. The presence of an amplified type B esterase with relative mobility of 0.95 cm was detected, which did not exist in the reference strain. CONCLUSIONS: resistance to insecticides and its mechanisms are highly variable, even in the same species subjected to various intensities in the insecticidal use, therefore, it is necessary to constantly monitor both aspects at local level in the course of time, with a view to an effective vector control program (AU)


Assuntos
Controle de Vetores de Doenças , Aedes , Resistência a Inseticidas , Inseticidas Organofosforados
6.
Rev. cuba. med. trop ; 62(3): 217-223, sep.-dic. 2010. graf
Artigo em Espanhol | CUMED | ID: cum-47667

RESUMO

INTRODUCCIÓN: la resistencia a insecticidas organofosforados en Santiago de Cuba fue diagnosticada en Aedes aegypti (Linnaeus, 1762) en 1997, y alguno de ellos se han continuado utilizando hasta la fecha, de ahí la necesidad de conocer cómo ha variado la resistencia desde entonces, hasta fechas más recientes, año 2009. OBJETIVO: evaluar la resistencia a insecticidas organofosforados en larvas de Santiago de Cuba, colectadas en 2009 y su variación con respecto a 1997. Determinar la frecuencia en que aparece el mecanismo de resistencia, basado en la alta actividad de esterasas y su clasificación. MÉTODOS: se evaluó la resistencia a los insecticidas organofosforados, malation, pirimifos metil, fenitrotion, fention, temefos y clorpirifos en larvas mediante la metodología recomendada por la Organización Mundial de la Salud. El mecanismo de esterasas se determinó a través de ensayos bioquímicos y electroforesis en gel de poliacrilamida. RESULTADOS: las larvas de la cepa de Santiago de Cuba resultaron susceptibles a malation, pirimifos metil y fenitrotion y no hubo variación con los resultados obtenidos en una cepa de Santiago de Cuba de 1997, se observó moderada resistencia a fention y alta a temefos y clorpirifos. Al comparar estos resultados con los obtenidos en 1997, se observó un incremento de la resistencia a los tres insecticidas en el período 1997-2009. En la cepa de Santiago de Cuba de 2009 se demostró que las esterasas se encontraron con una alta actividad a una frecuencia de 0,7. Se observó la presencia de una esterasa tipo B amplificada, con un valor de movilidad relativa de 0,95 cm, la cual no se encontró en la cepa susceptible de referencia. CONCLUSIONES: la resistencia a insecticidas y sus mecanismos es un fenómeno sumamente variable, aun en la misma especie sometida a distintas intensidades de aplicación de insecticidas, de ahí que su monitoreo constante de forma local y en el tiempo sea una necesidad para un programa de control de vectores (AU)


INTRODUCTION: resistance to organophosphorus insecticides was diagnosed in Aedes aegypti (Linnaeus, 1762) from Santiago de Cuba in 1997 and some of them are still used up to date; hence the need of ascertaining how the insecticidal resistance has changed in recent times, particularly in 2009. OBJECTIVE: to evaluate the resistance to organophosporus insecticides in larvae from Santiago de Cuba collected in 2009, and its variation in comparison with that observed in 1997; and to determine the frequency of occurrence of resistance mechanisms on the basis of high esterase activity and its classification. METHODS: resistance to organophosphorus insecticides such as malathion, pirimiphos, methyl, phenitrotion, phention, temephos and clorpiriphos in larvae by using the WHO recommended methodology. The esterase mechanism was identified through biochemical assays and polyacrylamide gel electrophoresis. RESULTS: larvae from the Santiago de Cuba strain were susceptible to malathion, pirimiphos, methyl and phenitrothion; there was no variation with the results achieved in a Santiago de Cuba strain in 1997, moderate resistance to phenthion and high resistance to temephos and chlorpiriphos were observed. When comparing these results with those of 1997, it was noted that resistance to the three insecticides increased in the 1997-2009 period. In the Santiago de Cuba strain 2009, it was shown that esterase activity was very high at a rate of 0,7. The presence of an amplified type B esterase with relative mobility of 0.95 cm was detected, which did not exist in the reference strain. CONCLUSIONS: resistance to insecticides and its mechanisms are highly variable, even in the same species subjected to various intensities in the insecticidal use, therefore, it is necessary to constantly monitor both aspects at local level in the course of time, with a view to an effective vector control program (AU)

7.
Rev. cuba. med. trop ; 62(3): 217-223, sep.-dic. 2010.
Artigo em Espanhol | LILACS | ID: lil-584955

RESUMO

INTRODUCCIÓN: la resistencia a insecticidas organofosforados en Santiago de Cuba fue diagnosticada en Aedes aegypti (Linnaeus, 1762) en 1997, y alguno de ellos se han continuado utilizando hasta la fecha, de ahí la necesidad de conocer cómo ha variado la resistencia desde entonces, hasta fechas más recientes, año 2009. OBJETIVO: evaluar la resistencia a insecticidas organofosforados en larvas de Santiago de Cuba, colectadas en 2009 y su variación con respecto a 1997. Determinar la frecuencia en que aparece el mecanismo de resistencia, basado en la alta actividad de esterasas y su clasificación. MÉTODOS: se evaluó la resistencia a los insecticidas organofosforados, malation, pirimifos metil, fenitrotion, fention, temefos y clorpirifos en larvas mediante la metodología recomendada por la Organización Mundial de la Salud. El mecanismo de esterasas se determinó a través de ensayos bioquímicos y electroforesis en gel de poliacrilamida. RESULTADOS: las larvas de la cepa de Santiago de Cuba resultaron susceptibles a malation, pirimifos metil y fenitrotion y no hubo variación con los resultados obtenidos en una cepa de Santiago de Cuba de 1997, se observó moderada resistencia a fention y alta a temefos y clorpirifos. Al comparar estos resultados con los obtenidos en 1997, se observó un incremento de la resistencia a los tres insecticidas en el período 1997-2009. En la cepa de Santiago de Cuba de 2009 se demostró que las esterasas se encontraron con una alta actividad a una frecuencia de 0,7. Se observó la presencia de una esterasa tipo B amplificada, con un valor de movilidad relativa de 0,95 cm, la cual no se encontró en la cepa susceptible de referencia. CONCLUSIONES: la resistencia a insecticidas y sus mecanismos es un fenómeno sumamente variable, aun en la misma especie sometida a distintas intensidades de aplicación de insecticidas, de ahí que su monitoreo constante de forma local y en el tiempo sea una necesidad para un programa de control de vectores.


INTRODUCTION: resistance to organophosphorus insecticides was diagnosed in Aedes aegypti (Linnaeus, 1762) from Santiago de Cuba in 1997 and some of them are still used up to date; hence the need of ascertaining how the insecticidal resistance has changed in recent times, particularly in 2009. OBJECTIVE: to evaluate the resistance to organophosporus insecticides in larvae from Santiago de Cuba collected in 2009, and its variation in comparison with that observed in 1997; and to determine the frequency of occurrence of resistance mechanisms on the basis of high esterase activity and its classification. METHODS: resistance to organophosphorus insecticides such as malathion, pirimiphos, methyl, phenitrotion, phention, temephos and clorpiriphos in larvae by using the WHO recommended methodology. The esterase mechanism was identified through biochemical assays and polyacrylamide gel electrophoresis. RESULTS: larvae from the Santiago de Cuba strain were susceptible to malathion, pirimiphos, methyl and phenitrothion; there was no variation with the results achieved in a Santiago de Cuba strain in 1997, moderate resistance to phenthion and high resistance to temephos and chlorpiriphos were observed. When comparing these results with those of 1997, it was noted that resistance to the three insecticides increased in the 1997-2009 period. In the Santiago de Cuba strain 2009, it was shown that esterase activity was very high at a rate of 0,7. The presence of an amplified type B esterase with relative mobility of 0.95 cm was detected, which did not exist in the reference strain. CONCLUSIONS: resistance to insecticides and its mechanisms are highly variable, even in the same species subjected to various intensities in the insecticidal use, therefore, it is necessary to constantly monitor both aspects at local level in the course of time, with a view to an effective vector control program.


Assuntos
Animais , Aedes , Inseticidas , Compostos Organofosforados , Cuba , Resistência a Inseticidas
8.
Rev. cuba. med. trop ; 61(2)May-Aug. 2009.
Artigo em Espanhol | LILACS | ID: lil-584915

RESUMO

INTRODUCCIÓN: el control de Aedes aegypti continúa siendo la única medida disponible para poder disminuir la transmisión de dengue. Desafortunadamente Ae. aegypti ha demostrado la habilidad de desarrollar resistencia a una gran variedad de tóxicos. OBJETIVO: evaluar la resistencia a insecticidas químicos en larvas y adultos del municipio Boyeros, Ciudad de La Habana, así como los mecanismos que contribuyeron a esta. MÉTODOS: se evaluó la resistencia a insecticidas químicos en larvas y adultos a través de metodologías de la OMS. Los mecanismos de resistencia se determinaron a través de sinergistas y pruebas bioquímicas. Se realizó electroforesis en gel de poliacrilamida para la visualización de enzimas esterasas. RESULTADOS: en larvas se observó susceptibilidad a los insecticidas organofosforados evaluados. Resistencia se observó a los piretroides cipermetrina y deltametrina. Los bioensayos en larvas con el producto comercial de temefos mostraron 100 por ciento de mortalidad con recambio diario de agua hasta 10 d. Se demostró que ni las esterasas, ni la enzima glutatión transferasa, desempeñaron un papel importante en la resistencia a insecticidas en larvas. Se observó la presencia de la esterasa A4 amplificada a baja frecuencia en las muestras estudiadas. En el estado adulto, la cepa Boyeros resultó resistente a los piretroides ciflutrina y lambdacialotrina, en verificación a deltametrina, y resultó susceptible a cipermetrina; también resultó ser resistente al organofosforado clorpirifos y al organoclorado DDT. CONCLUSIONES: estos resultados corroboran que aun el piretroide cipermetrina, a pesar de su uso en el municipio Boyeros, continúa siendo efectivo para el control de Ae. aegypti.


INTRODUCTION: the control of Aedes aegypti remains the only available measure to reduce dengue transmission. Unfortunately, this vector has proved that it is capable of developing resistance to a great variety of toxic substances. OBJECTIVE: to evaluate the resistance to chemical insecticides in larvae and adult vectors in Boyeros municipality, City of Havana as well as those mechanisms supporting it. METHODS: insecticide resistance of mosquito larvae and adults was evaluated with the WHO methodologies. The resistance mechanisms were determined through synergy and biochemical tests. Polyacrylamid gel electropheresis was applied to visualize esterases. RESULTS: larvae were susceptible to the evaluated organophosphate insecticides whereas resistance to pyrethroids, cypermethrin and deltamethrin was observed. Bioassays performed in larvae with temephos-made commercial product showed 100 percent mortality up to 10 days, with daily change of water. It was proved that neither esterases nor glutathione transferase played an important role in larval insecticide resistance. Low frequency amplified esterase A4 was present in the studied samples. In adult stage, Boyeros strain was resistant to pyrethroids ciflutrhine and Lambdacyalothrine, in verification to deltamethrine and susceptible to cypermethrine; it was also resistant to organophosphate chlorpiriphos and organochlorate DDT. CONCLUSIONS: these results confirm that although the pyrethroid cipermethrine has been widely used in Boyeros municipality, it continues being effective for Ae. aegypti control.

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