ABSTRACT
INTRODUCTION: The effects of piperonyl butoxide (PBO) on the toxicity of the organophosphate temephos (TE) and the role of esterases in the resistance of Aedes aegypti to this insecticide were evaluated. METHODS: A. aegypti L4 larvae susceptible and resistant to TE were pre-treated with PBO solutions in acetone at concentrations of 0.125, 0.25, 0.5, 1, and 2% for 24h and subsequently exposed to a diagnostic concentration of 0.02 mg/L aqueous TE solution. The esterase activity of the larvae extracts pre-treated with varying PBO concentrations and exposed to TE for three time periods was determined. RESULTS: At concentrations of 0.25, 0.5, 1, and 2%, PBO showed a significant synergistic effect with TE toxicity. High levels of esterase activity were associated with the survival of A. aegypti L4 larvae exposed to TE only. CONCLUSIONS: The results of the biochemical assays suggest that PBO has a significant inhibitory effect on the total esterase activity in A. aegypti larvae.
Subject(s)
Aedes/drug effects , Aedes/enzymology , Esterases/physiology , Insecticide Resistance , Pesticide Synergists/pharmacology , Piperonyl Butoxide/pharmacology , Temefos/toxicity , Animals , Larva/drug effects , OrganophosphatesABSTRACT
Introduction The effects of piperonyl butoxide (PBO) on the toxicity of the organophosphate temephos (TE) and the role of esterases in the resistance of Aedes aegypti to this insecticide were evaluated. Methods A. aegypti L4 larvae susceptible and resistant to TE were pre-treated with PBO solutions in acetone at concentrations of 0.125, 0.25, 0.5, 1, and 2% for 24h and subsequently exposed to a diagnostic concentration of 0.02mg/L aqueous TE solution. The esterase activity of the larvae extracts pre-treated with varying PBO concentrations and exposed to TE for three time periods was determined. Results At concentrations of 0.25, 0.5, 1, and 2%, PBO showed a significant synergistic effect with TE toxicity. High levels of esterase activity were associated with the survival of A. aegypti L4 larvae exposed to TE only. Conclusions The results of the biochemical assays suggest that PBO has a significant inhibitory effect on the total esterase activity in A. aegypti larvae. .
Subject(s)
Animals , Aedes/drug effects , Aedes/enzymology , Esterases/physiology , Insecticide Resistance , Pesticide Synergists/pharmacology , Piperonyl Butoxide/pharmacology , Temefos/toxicity , Larva/drug effects , OrganophosphatesABSTRACT
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)
Subject(s)
Animals , Aedes/enzymology , Esterases/physiology , Insecticides , Temefos , Insecticide Resistance/physiologyABSTRACT
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.
Subject(s)
Animals , Aedes/enzymology , Esterases/physiology , Insecticides , Temefos , Insecticide Resistance/physiologyABSTRACT
OBJECTIVE: To examine the effects of increasing larval rearing temperatures on the resistance status of Trinidadian populations of Aedes aegypti to organophosphate (OP) insecticides. METHODS: In 2007-2008, bioassays and biochemical assays were conducted on A. aegypti larvae collected in 2006 from eight geographically distinct areas in Trinidad (Trinidad and Tobago). Larval populations were reared at four temperatures (28 ± 2ºC, 32ºC, 34ºC, and 36ºC) prior to bioassays with OP insecticides (fenthion, malathion, and temephos) and biochemical assays for esterase enzymes. RESULTS: Most larval populations reared at 28 ± 2ºC were susceptible to fenthion (>98% mortality) but resistant to malathion and temephos (< 80% mortality). A positive association was found between resistance to OP insecticides and increased activities of α- and ß-esterases in larval populations reared at 28 ± 2ºC. Although larval populations reared at higher temperatures showed variations in resistance to OPs, there was a general increase in susceptibility. However, increases or decreases in activity levels of enzymes did not always correspond with an increase or decrease in the proportion of resistant individuals reared at higher temperatures. CONCLUSIONS: Although global warming may cause an increase in dengue transmission, based on the current results, the use of insecticides for dengue prevention and control may yet be effective if temperatures increase as projected.
Subject(s)
Aedes/drug effects , Fenthion/pharmacology , Insect Vectors/drug effects , Insecticide Resistance , Insecticides/pharmacology , Malathion/pharmacology , Temefos/pharmacology , Temperature , Aedes/enzymology , Aedes/growth & development , Animals , Dengue/prevention & control , Esterases/analysis , Esterases/physiology , Global Warming , Hot Temperature , Insect Proteins/analysis , Insect Proteins/physiology , Insect Vectors/enzymology , Insect Vectors/growth & development , Insecticide Resistance/physiology , Larva/drug effects , Larva/enzymology , Species Specificity , Trinidad and TobagoABSTRACT
OBJECTIVE: To examine the effects of increasing larval rearing temperatures on the resistance status of Trinidadian populations of Aedes aegypti to organophosphate (OP) insecticides. METHODS: In 2007-2008, bioassays and biochemical assays were conducted on A. aegypti larvae collected in 2006 from eight geographically distinct areas in Trinidad (Trinidad and Tobago). Larval populations were reared at four temperatures (28 ± 2ºC, 32ºC, 34ºC, and 36ºC) prior to bioassays with OP insecticides (fenthion, malathion, and temephos) and biochemical assays for esterase enzymes. RESULTS: Most larval populations reared at 28 ± 2ºC were susceptible to fenthion (>98% mortality) but resistant to malathion and temephos (< 80% mortality). A positive association was found between resistance to OP insecticides and increased activities of α- and β-esterases in larval populations reared at 28 ± 2ºC. Although larval populations reared at higher temperatures showed variations in resistance to OPs, there was a general increase in susceptibility. However, increases or decreases in activity levels of enzymes did not always correspond with an increase or decrease in the proportion of resistant individuals reared at higher temperatures. CONCLUSIONS: Although global warming may cause an increase in dengue transmission, based on the current results, the use of insecticides for dengue prevention and control may yet be effective if temperatures increase as projected.
OBJETIVO: Examinar los efectos del aumento de las temperaturas de desarrollo larvario sobre el estado de resistencia a los insecticidas organofosforados de las poblaciones de Aedes aegypti en Trinidad. MÉTODOS: En 2007 y 2008 se llevaron a cabo ensayos biológicos y bioquímicos en larvas de A. aegypti recogidas en el 2006 de ocho áreas geográficamente separadas en Trinidad (Trinidad y Tabago). Las poblaciones larvarias se desarrollaron en cuatro temperaturas (28 ± 2 ºC, 32 ºC, 34 ºC y 36 ºC) antes de los ensayos biológicos con insecticidas organofosforados (fentión, malatión y temefós) y los análisis bioquímicos para las enzimas de esterasa. RESULTADOS: La mayoría de las poblaciones larvarias que se desarrollaron a 28 ± 2 ºC fueron susceptibles al fentión (mortalidad > 98%) pero resistentes al malatión y al temefós (mortalidad < 80%). Se encontró una asociación positiva entre la resistencia a los insecticidas organofosforados y la mayor actividad de αy β-esterasas en las poblaciones larvarias que se desarrollaron a 28 ± 2 ºC. Aunque las poblaciones larvarias que se desarrollaron a temperaturas mayores mostraron variaciones en la resistencia a los organofosforados, hubo un aumento general de la sensibilidad. Sin embargo, los aumentos o las disminuciones en los niveles de actividad de las enzimas no siempre se correspondieron con un aumento o disminución en la proporción de individuos resistentes desarrollados a las temperaturas más altas. CONCLUSIONES: Aunque el recalentamiento del planeta puede causar un aumento de la transmisión del dengue, según los resultados de este estudio el uso de insecticidas para la prevención y el control del dengue todavía puede ser eficaz si las temperaturas aumentan según lo proyectado.
Subject(s)
Animals , Aedes/drug effects , Fenthion/pharmacology , Insect Vectors/drug effects , Insecticide Resistance , Insecticides/pharmacology , Malathion/pharmacology , Temefos/pharmacology , Temperature , Aedes/enzymology , Aedes/growth & development , Dengue/prevention & control , Esterases/analysis , Esterases/physiology , Global Warming , Hot Temperature , Insect Proteins/analysis , Insect Proteins/physiology , Insect Vectors/enzymology , Insect Vectors/growth & development , Insecticide Resistance/physiology , Larva/drug effects , Larva/enzymology , Species Specificity , Trinidad and TobagoABSTRACT
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.
Subject(s)
Aedes/enzymology , Esterases/physiology , Insecticides , Temefos , Animals , Insecticide Resistance/physiologyABSTRACT
Insecticide resistance of Aedes aegypti larvae and adults from two Peruvian provinces, that is, Trujillo and Tumbes provinces, was conducted. High infestation indexes and extensive use of insecticides based on the Vector Surveillance and Control Strategy of the Ministry of Public Health prevailed in these places. Larval bioassays revealed susceptibility to organophosphorate insecticide called malathion in TRUJILLO strain, it being moderate to fention and fenitrotion and high to chlorpyriphos and temephos;however, TUMBES strain was susceptible to the evaluated organophosphorate compounds, except for fention, with moderate resistance. In the adult state, at the recommended dose, TRUJILLO strain showed resistence to DDT organochlorate insecticide and to pyrethoids called lambdacyalotrine and cyflutrine whereas TUMBES was resistant to DDT and to all assessed pyrethoids. None of them was resistant to chlorpiriphos in adult stage. By using synergists, the results showed that esterases and monooxigenases played an important role in the detected resistence to organophosphorate in Aedes larvae from TRUJILLO province. Biochemical assays yielded that increased activity of esterases was very frequent in TRUJILLO strain as was the case of glutathion transferase(GST) and modified acetylcholinesterase (AchR). On the other hand, the polyacrylamide gel electrophoresis allowed observing the prevalence of amplified activity of esterases A4 in TRUJILLO strain but not in TUMBES strain.
Subject(s)
Aedes/physiology , Insect Vectors/physiology , Insecticide Resistance/physiology , Aedes/drug effects , Aedes/enzymology , Aedes/genetics , Aedes/growth & development , Animals , Drug Synergism , Esterases/analysis , Esterases/physiology , Female , Glutathione Transferase/analysis , Glutathione Transferase/physiology , Inactivation, Metabolic , Insect Proteins/analysis , Insect Proteins/physiology , Insect Vectors/drug effects , Insect Vectors/enzymology , Insect Vectors/genetics , Insecticide Resistance/genetics , Insecticides/classification , Insecticides/pharmacokinetics , Insecticides/pharmacology , Larva , Lethal Dose 50 , Peru , Species SpecificityABSTRACT
In this paper, the level of resistance to four insecticides of 3 Blatella germanica strains collected from various places in the City of Havana province was evaluated. These strains were resistant to two pyrethroids (cypermethrin and lambda-cyalothrine) and to organophosphorate malathion but susceptible to carbamate propoxur. The values of alpha and beta esterases, acetylcholinesterase and gluthatione-S-transferase were estimated in three strains involved in the study. The results of the study showed high esterase activity in all the strains, mainly beta esterases and two of the three strains presented with high gluthation-S-transferase enzyme. No changes in acetylcholinesterase were demonstrated in relation to the reference strain. The association of levels of resistance to insecticides, the possible resistance mechanisms in each strain and the results of the enzymatic activity were also analyzed.
Subject(s)
Blattellidae/drug effects , Insect Proteins/physiology , Insecticide Resistance , Insecticides/pharmacokinetics , Administration, Topical , Animals , Blattellidae/enzymology , Blattellidae/physiology , Enzyme Induction , Esterases/physiology , Glutathione Transferase/physiology , Inactivation, Metabolic , Insecticide Resistance/physiology , Insecticides/administration & dosage , Malathion/administration & dosage , Malathion/pharmacokinetics , Male , Nitriles/administration & dosage , Nitriles/pharmacokinetics , Propoxur/administration & dosage , Propoxur/pharmacokinetics , Pyrethrins/administration & dosage , Pyrethrins/pharmacokineticsABSTRACT
An in vivo study of two synergists, that is, Triphenil phosphate -specific esterase inhibitor- and ethacrynic acid -specific gluthation transferase inhibitor- was performed to determine if these enzymes were responsible for pyrethroid resistance of Aedes aegypti. To this end, two insecticide resistant Aedes aegypti strains were used, one strain selected with temephos by six selection generations (SAN-F6) and the other strain with delmamethrin by 12 selection generations (SAN-F12), being both strains resistant to pyrethroid insecticices. Through the use of TPP and EA synergists, it was proved that esterase and gluthation-s-transferase (GST) enzymes were responsible for pryrethroid resistance of these strains. These results showed the existence of cross-resistance and multidrug resistance, which should be taken into account for insecticide use strategies aimed at vector control.
Subject(s)
Aedes/physiology , Esterases/physiology , Glutathione Transferase/physiology , Insect Proteins/physiology , Insect Vectors/physiology , Insecticides/pharmacokinetics , Pyrethrins/pharmacokinetics , Aedes/drug effects , Aedes/enzymology , Aedes/growth & development , Animals , Drug Resistance, Multiple/physiology , Drug Synergism , Esterases/analysis , Esterases/antagonists & inhibitors , Ethacrynic Acid/pharmacology , Female , Glutathione Transferase/analysis , Glutathione Transferase/antagonists & inhibitors , Inactivation, Metabolic , Insect Proteins/analysis , Insect Vectors/drug effects , Insect Vectors/enzymology , Insect Vectors/genetics , Insecticide Resistance/physiology , Insecticides/pharmacology , Larva , Lethal Dose 50 , Nitriles/pharmacokinetics , Organophosphates/pharmacology , Species Specificity , Temefos/pharmacokinetics , Temefos/pharmacologyABSTRACT
Se estudiaron los mecanismos de resistencia de la cucaracha Blattella germanica, considerada una de las plagas urbanas más importantes al nivel mundial, por ser un vector mecánico que aloja diversos virus, hongos, helmintos y bacterias, sumamente dañinos para el hombre. Existen diferentes métodos de control empleados contra Blattella germanica, dentro de los cuales tiene un papel esencial el uso de insecticidas. Su aplicación indiscriminada ha provocado el desarrollo de resistencia en esta especie. En este trabajo se adaptaron los métodos bioquímicos que permiten detectar las enzimas esterasas, acetilcolinesterasa y glutation-S-transferasa como posibles mecanismos de resistencia, para ello se determinaron todos los parámetros que permiten establecer si una cepa es susceptible o resistente dado cada mecanismo(AU)
Subject(s)
Humans , Esterases , Esterases/physiology , Acetylcholinesterase , Glutathione TransferaseABSTRACT
The horn fly, Haematobia irritans irritans (L.) (Diptera: Muscidae), has become a problem for Brazilian cattle producers even though its introduction into Brazil is relatively recent. Failure to control this cattle pest is becoming a concern, and horn fly populations from several ranches from the state of Mato Grosso do Sul were surveyed for pyrethroid resistance. Susceptibility bioassays revealed that cypermethrin resistance was widespread and reached high levels in horn fly populations throughout the state, with resistance factors (RFs) ranging from 50.4 to 704.8. Synergist bioassays failed to detect a major role for esterases as a pyrethroid resistance mechanism in these populations, except for the highly pyrethroid-resistant Estrela do Oeste population (RF = 704.8). The kdr sodium channel gene mutation was not detected in eight of the 13 populations, but < 7% of individuals from four populations and 50% of the flies from Estrela do Oeste exhibited this mutation. Neither the superkdr sodium channel gene mutation nor a resistance-associated gene mutation in the HialphaE7 carboxylesterase were found in any of the fly populations. Although target site insensitivity (kdr) and esterase-mediated metabolism occur in horn fly populations from Mato Grosso do Sul state, it seems that they are not the major mechanism causing pyrethroid resistance in most of these populations.
Subject(s)
Esterases/physiology , Insecticides/pharmacology , Muscidae/physiology , Permethrin/pharmacology , Pyrethrins/pharmacology , Sodium Channels/genetics , Animals , Biological Assay/methods , Brazil , Cattle , DNA Primers/chemistry , Genotype , Insecticide Resistance/genetics , Muscidae/genetics , Mutation , Organophosphates/pharmacology , Polymerase Chain Reaction/methodsABSTRACT
The resistance mechanisms of Blatella germanica, one of the most important urban plagues worldwide since it is a mechanical vector that houses a number of highly harmful viruses, fungi, helmints and bacteria were studied. There are different control methods used against Blattella germnanica, with insecticides playing the leading role. Their uncontrolled application has caused the development of insecticice resistance in this species. This paper adapted biochemical methods to detect the enzymes esterase, acetylcholinesterase and glutathine-S-transferase as posible resistance mechanisms. To this end, all the parameters that allow finding out if a strain is susceptible or resistant to each mechanism were set.
Subject(s)
Acetylcholinesterase/analysis , Blattellidae/enzymology , Esterases/analysis , Glutathione Transferase/analysis , Inactivation, Metabolic/physiology , Insect Proteins/analysis , Insecticide Resistance/physiology , Insecticides/pharmacokinetics , Acetylcholinesterase/genetics , Acetylcholinesterase/physiology , Animals , Biological Assay , Blattellidae/drug effects , Blattellidae/genetics , Cholinesterase Inhibitors/pharmacology , Chromogenic Compounds , Dose-Response Relationship, Drug , Enzyme Activation , Esterases/genetics , Esterases/physiology , Gene Frequency , Genes, Insect , Glutathione Transferase/genetics , Glutathione Transferase/physiology , Inactivation, Metabolic/genetics , Insect Proteins/genetics , Insect Proteins/physiology , Insecticide Resistance/genetics , Insecticides/classification , Propoxur/pharmacokinetics , Reproducibility of Results , Substrate SpecificityABSTRACT
A study on the mode of inheritance of temephos resistance was conducted using a temephos resistant Aedes aegypti reference strain (SAN-F6) with a value of resistance factor of 200x, compared with the insecticide susceptible Aedes aegypti strain (ROCKEFELLER). Genetic crossings were performed between temephos resistant and susceptible strains. An F1 crossing was attained. The females of this F1 crossing were crossed with males from the ROCKEFELLER strain (retrocrossing), and it was found that the temephos resistance was inherited in a semidominant way and as a monofactorial trait. The activity of Est-A4 observed in the polyacrylamide gel electrophoresis and measured by biochemical assays was higher in the strain resistant to temephos (SAN-F6), lower in the susceptible strain (ROCKEFELLER), and intermediate in the crossing of these two strains. A lower effect of the resistant parental strain was observed in the retrocrossing, both in the mortality with temephos and in the activity of Est. A4. These results suggest that the esterase activity may also be inherited, as well as the resistance to temephos, as a semidominant character.