Desenvolvimento de metodologia para imobilização de dípteros e avaliação de adulticidas : validação com mosquitos (Diptera: Culicidae) e moscas (Diptera: Chloropidae) / Development of methodology to immobilization of dipteras and evaluation of adulticides : validation with mosquitoes (Diptera: Culicidae) and flies (Diptera: Chloropidae)

Cabrini, Isaías, 1978-

31 January 2013

Orientador: Angelo Pires do Prado / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-22T01:14:59Z (GMT). No. of bitstreams: 1 Cabrini_Isaias_D.pdf: 2849716 bytes, checksum: ed08a0c88dd0e1b75d716f1c4b64e9ff (MD5) Previous issue date: 2013 / Resumo: Métodos para controlar e monitorar a susceptibilidade de insetos vetores tem sido estudado. Órgãos governamentais como World Health Organization (WHO) e Center of Disease Control (CDC) tem preconizado metodologias de bioensaios para avaliação em laboratório de resistência de mosquitos. O objetivo para se realizar testes de susceptibilidade é detectar a presença de indivíduos resistentes em uma população de inseto para que se possa, tão logo quanto possível, iniciar planos de controle alternativo, evitando-se assim os custos adicionais e problemas na redução da população do vetor. No entanto, alguns aspectos de tais metodologias são questionáveis e podem comprometer a metodologia como eficaz para revelar se uma população está resistente a um determinado inseticida. Por exemplo: 1) o Método do Papel Impregnado (WHO) possui algumas desvantagens como alto custo do material, falhas no contado do mosquito com a superfície tratada e possibilidade de perda de indivíduos durante o manuseio dos equipamentos; 2) O Método de Atividade Intrínseca do Inseticida (WHO) propõe a utilização de CO2 e baixa temperatura para anestesiar os mosquitos e acetona como diluente e aplicação do inseticida com um micro-capilar que proporciona gotas de 0,1 ?L. No entanto, os meios de anestesia levam ao estresse fisiológico, a baixa temperatura retarda a evaporação da acetona e o micro-capilar não libera o volume correto de solução e; 3) o Método da Garrafa Impregnada (CDC) permite que os mosquitos recebam o inseticida apenas pelo contato tarsal e dessa forma a quantidade de inseticida recebida pelo inseto pode não ser letal. O presente trabalho teve como objetivo desenvolver uma metodologia que eliminasse tais desvantagens. Foi possível demonstrar que a exposição de machos e fêmeas de Aedes aegypti ao CO2, baixa temperatura ou ambos, leva a uma mortalidade significativa. Um método de imobilização por meio de sucção foi desenvolvido, utilizando-se um aspirador de pó portátil. Esse método permitiu a imobilização de mosquitos e moscas (Chloropidae), havendo uma baixa mortalidade de mosquitos apenas após 60 min. de permanente imobilização, concluindo-se que o método de imobilização por sucção pode substituir os métodos de anestesia. Um método de aplicação líquida foi proposto, utilizando-se dispersores utilizados para aplicação de perfume, sendo que um dos parâmetros avaliados foi o tamanho de gotas. Os resultados demonstraram que é possível a utilização desses dispersores para aplicação de inseticida, pois há homogeneidade no tamanho das gotas. Utilizando esse método de aplicação, avaliou-se a possibilidade de utilização de acetona ou álcool etílico como diluente de inseticidas, sendo que a acetona causou alta mortalidade em fêmeas e machos de Ae. aegypti e dessa forma foi proposto à utilização de álcool etílico. A metodologia aqui proposta foi utilizada para análise de susceptibilidade do mosquito Aedes aegypti (Culicidae) e mosca Liohippelates nigrifons (Chloropidae) aos inseticidas malation e deltametrina. Foi possível estabelecer a linha base de susceptibilidade, a CL50 e a concentração diagnóstico. Além disso, foi possível detectar a resistência de uma população de Ae. aegypti advinda do campo. Conclui-se que a metodologia de imobilização associada ao método de aplicação líquida pode ser utilizada para detecção de resistência de mosquitos / Abstract: Methods to control and monitor the susceptibility of vectors has been studied. Government agencies like World Health Organization (WHO) and Centers for Disease Control (CDC) has recommended methodologies bioassays for evaluating resistance in mosquitoes in the laboratory. The goal is to perform susceptibility testing is to detect the presence of resistant individuals in a population of insects so that we can, as soon as possible, initiate alternative control plans, thus avoiding additional costs and problems in reducing the vector population. However, some aspects of these methodologies are questionable and may denigrate as effective methodology to find out if a population is resistant to a particular insecticide. For example: 1) Method of Impregnated Paper (WHO) has some disadvantages such as high cost of material failures counted mosquito with the treated surface and the possibility of loss of individuals during handling equipment, 2) The Method of Intrinsic Activity of Insecticide (WHO) proposes the use of CO2 and low temperature to anesthetize mosquitoes and acetone as diluents and insecticide application with a micro-capillary that provides drops of 0.1 ?l. However, the means of anesthesia leading to physiological stress, low temperature retards the evaporation of acetone and the micro-capillary will not release the correct volume of solution, and 3) the method of Impregnated bottle (CDC) enables receiving mosquito insecticide only by tarsal contact and thus the amount of insecticide received by the insect cannot be sufficiently lethal. This study aimed to develop a methodology that would eliminate such disadvantages. It was possible to demonstrate that exposure of male and female Aedes aegypti CO2, low temperature, or both leads to a significant mortality. A method of immobilization by suction was developed using a portable vacuum cleaner. This method allowed for the immobilization of mosquitoes and flies (Chloropidae), having a low mosquito mortality after only 60 min. permanent immobilization, concluding that the immobilization method by suction can override the methods of anesthesia. A liquid application method was proposed, using disperser's perfume, and one of the parameters evaluated droplet size. The results demonstrated that it is possible to use the dispersers for insecticide application, as there uniformity in droplet size. Using this application method, we evaluated the possibility to use acetone or ethanol as diluents insecticides, and acetone caused high mortality in female and male Ae. aegypti and thus it was proposed to use alcohol. The methodology proposed here was used to analyze the susceptibility of the mosquito Aedes aegypti (Culicidae) and fly Liohippelates nigrifons (Chloropidae) to insecticides Malathion and Deltamethrin. It was possible to establish baseline susceptibility, and the LC50 concentration diagnosis. Moreover, it was possible to detect the resistance of an Ae. aegypti originating from the field. It is concluded that the method of immobilization associated liquid application method can be used to detect resistance of mosquitoes / Doutorado / Parasitologia / Doutor em Parasitologia

Aedes aegypti

Dengue

Suscetibilidade a doenças

Resistencia aos inseticidas

Bioensaios

Anestesia

Aedes aegypti

Dengue

Disease susceptibility

Insecticide resistance

Résistances aux insecticides chez les Culicidae vecteurs en territoires insulaires / Insecticide resistance in Culicidae vectors in insular territories

Pocquet, Nicolas

28 March 2014

La résistance aux insecticides est un phénomène naturel d'adaptation des insectes. Lorsqu'elle apparaît dans une population de vecteur, elle compromet les interventions de lutte anti-vectorielle, et limite les possibilités de contrôle des agents pathogènes qu'ils transmettent. La résistance aux insecticides chez les Culicidae vecteurs est largement répandue de par le monde, et on la retrouve notamment dans les territoires insulaires. Cependant, l'isolement géographique des îles influe sur la présence et la distribution des allèles de résistance. En travaillant sur quatre espèces de moustiques dans plusieurs contextes insulaires, nous nous sommes attachés à (i) évaluer les niveaux de résistance et à caractériser les mécanismes impliqués, (ii) identifier les facteurs, contextuels et/ou évolutifs, expliquant la présence et la distribution des gènes de résistance chez certaines de ces espèces, et (iii) évaluer de nouveaux outils de lutte pouvant être mis en place dans le contexte insulaire particulier que représente Mayotte. Nos résultats montrent une forte résistance de Culex p. quinquefasciatus à toutes les familles d'insecticides utilisées jusqu'à présent dans l'Océan Indien. Cependant, la distribution de ces mécanismes de résistance a présenté une forte hétérogénéité régionale, les allèles de résistance n'étant pas présents dans toutes les îles et/ou pas aux mêmes fréquences. De plus, à une échelle plus locale sur l'île de Mayotte, il existe de fortes disparités entre les espèces étudiées en terme de résistance. Ces différences inter-espèces, intra-île et inter-îles sont discutées en fonction de l'influence des pressions de sélections locales et de leurs sources, et du coût génétique des différents allèles présents. Des propositions d'évolution des pratiques de lutte à Mayotte sont énoncées, intégrant les nouveaux outils que nous avons évalués sur le terrain. / Insecticide resistance is a natural adaptation phenomenon of insects. When it occurs in a vector population, it compromises vector control interventions, and therefore limits the ability to control the diseases they transmit. Insecticide resistance in Culicidae is widespread throughout the world, and is also found in islands. However, their geographic isolation influences the presence and distribution of resistance alleles. We have worked on four mosquito species in several islands, and we tried to (i) assess the resistance levels and characterize the mechanisms involved, (ii) identify contextual and/or evolutionary factors explaining the presence and distribution of resistance genes in some of these species, and (iii) evaluate new control tools that can be implemented in the specific context of Mayotte island. Our results showed a strong resistance of Culex p. quinquefasciatus to all insecticide families used so far in the Indian Ocean. However, the distribution of resistance mechanisms showed a strong spatial heterogeneity. Indeed, some resistance alleles were not present on all islands and/or not at the same frequencies. In addition, at a more local scale in Mayotte, there were strong differences of resistance status between species. These differences between species and islands are discussed in relation to the influence of local selection pressures and their origins, and to the fitness cost of different alleles. Proposals for modification in vector control practices are set to Mayotte, integrating new tools we have evaluated on the field.

Résistance aux insecticides

Culicidae

Lutte anti-vectorielle

Paludisme

Arbovirose

Milieux insulaires

Insecticide resistance

Culicidae

Vector control

Malaria

Arbovirosis

Insular territories

Investigação da resistencia a inseticidas na mosca-da-bicheira Cochliomyia hominivorax (Diptera; Calliphoridae) / Investigation of insecticide resistance in the New World Screwworm fly Cochliomyia hominivorax (Diptera; Calliphoridae)

Silva, Norma Machado da

10 January 2009

Orientador: Ana Maria Lima de Azeredo-Espin / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-14T11:05:22Z (GMT). No. of bitstreams: 1 Silva_NormaMachadoda_D.pdf: 6129934 bytes, checksum: 5d8a07895afd2e470c9fd5caf8ac9fb8 (MD5) Previous issue date: 2009 / Resumo: Cochliomyia hominivorax é considerada uma importante praga por causar perdas econômicas para a pecuária na região Neotropical. Este ectoparasita tem sido controlado principalmente por inseticidas, entretanto, este método normalmente resulta na seleção de indivíduos resistentes. Nesta tese foram investigados mecanismos associados com resistência a inseticidas organofosforados e piretróides. Os resultados apresentados nesta tese estão divididos em dois artigos. No artigo 1 foram investigados dois mecanismos de resistência a piretróides, um conhecido como kdr (knockdown resistance), associado à mutações no canal de sódio, e a mutação W251S no gene da carboxilesterase E3, a qual têm sido associada à hidrólise de piretróides. Foram investigadas populações da atual distribuição geográfica de C. hominivorax através de PCR-RFLP. Para a mutação kdr (L1014F) nenhum indivíduo mutante foi encontrado. Entretanto, a mutação W251S foi encontrada em todas as populações, com as mais altas freqüências nas amostras da Venezuela (100%) e Colômbia (93.75%). Em algumas populações amostradas, apesar da freqüência do alelo mutante ter sido relativamente baixa, o número de indivíduos portadores de pelo menos um alelo mutante foi alto. No bioensaio com cipermetrina (piretróide tipo II), utilizando amostras de Estiva (MG), os resultados analisados através do teste exato de Fisher indicaram que para a mais baixa concentração (p=0.0003) e para uma concentração intermediária (p= 0.024), a presença da mutação W251S está correlacionada com as chances de sobrevivência. Entretanto, na mais alta concentração (p= 0.221) a presença desta mutação não foi correlacionada com a sobrevivência, o que possivelmente indica dificuldade em hidrolisar este tipo de piretróide em concentrações maiores. No Artigo 2, as mutações G137D no gene da carboxilesterase E3, e as mutações I298V, G401A e F466Y no gene da acetilcolinesterase, associadas com resistência a organofosforados, foram investigadas nas mesmas populações do artigo 1, através de PCR-RFLP e sequenciamento direto de PCR. A região codificante completa da acetilcolinesterase também foi caracterizada e proposto um modelo para a estrutura tridimensional desta proteína com base na estrutura da acetilcolinesterase de Drosophila melanogaster. Possíveis alterações na proteína causadas pelas mutações associadas com resistência a organofosforados foram discutidas. No gene da acetilcolinesterase somente 2 de 135 indivíduos analisados apresentaram uma das mutações investigadas, a F466Y, o que pode estar associado ao alto custo no valor adaptativo do indivíduo, causado por algumas mutações neste gene ou inexistência dos demais alelos mutantes nestas populações. Entretanto, para a mutação G137D no gene da E3 foi encontrado um alto número de indivíduos portadores de pelo menos um alelo mutante na maioria das populações brasileiras e no Uruguai. Em Cuba, Venezuela e Colômbia nenhum indivíduo mutante para G137D foi encontrado, o que pode estar relacionado com os inseticidas usados no controle de C. hominivorax nestas regiões ou com a inexistência do alelo mutante nestas localidades. Os resultados de ambos os trabalhos indicam que mutações no gene da carboxilesterase E3 são um dos principais mecanismos de resistência selecionados nesta espécie, dentre os investigados até o momento. Este estudo representa um importante avanço no entendimento da base molecular da resistência a inseticidas em um importante ectoparasita. / Abstract: Cochliomyia hominivorax is an important ectoparasite, causing considerable economic losses to livestock sector in Neotropical region. This ectoparasite has been controlled mainly by applying insecticides, however, this method usually results in the selection of resistant individuals. In this thesis, mechanisms associated with organophosphate and pyrethroid insecticide resistance were investigated. The results presented in this thesis are divided in two articles. In the Article 1 two mechanisms associated with pyrethroid resistance were investigated, the kdr (knockdown resistance), a generic term for mutations in the sodium channel, and a mutation in the residue 251 of the carboxylesterase E3 gene, which have been associated with pyrethroid hydrolysis. Populations of actual geographical distribution of C. hominivorax were investigated through PCR-RFLP. For the kdr mutation, no mutant individuals were found. However, the W251S mutation was found in all populations investigated, with the highest frequencies in the samples from Colombia (100%) and Venezuela (93.75%). In some populations, despite relatively low mutant allele frequency, the number of individuals having at least one mutant allele was high. A bioassay with cypermethrin (pirethroid type II) was also performed, using samples from Estiva (MG). The results of the Fisher's exact test for the lowest concentration (p=0.0003, a= 0.05) and for an intermediate concentration (p= 0.024, a= 0.05) indicated that the presence of W251S mutation are correlated with the survival. However, at the highest concentration, Fisher's exact test (p= 0.221, a= 0.05) indicated that the presence of this mutation was not correlated with survival. These results indicate that the W251S mutation in C. hominivorax probably presents difficulties in hydrolyzing of this kind of pyrethroid, in high concentrations. In the Article 2, the G137D mutation, in the carboxylesterase E3 gene, and the I298V, G401A and F466Y mutations in the acetylcholinesterase gene, associated with organophosphate resistance, were investigated. The same populations of article 1 were analyzed using PCR-RFLP and PCR direct sequencing. The complete coding region of acetylcholineserase also was characterized and a putative model for the three-dimensional structure of this protein was proposed, based on solved structure of Drosophila melanogaster. Possible alterations in the protein, caused by mutations associated with organophosphate resistance, were discussed. For the acetylcholinesterase gene, only 2 of 135 individuals analyzed presented one of the mutations investigated, the F466Y. This fact may be related with the fitness cost of some mutations in this gene, or the inexistence of mutant alleles in these populations. For the G137D mutation, a high number of individuals having at least one mutant allele were found in most of the Brazilian populations and in Uruguay. In Cuba, Venezuela and Colombia no G137D mutant was found, a finding that may be related to the insecticides used for C. hominivorax control in these regions. The results of these two works indicate that mutations in the carboxylesterase E3 gene are one of the main insecticide resistance mechanisms selected in this species, so far investigated. This study represents a significant advance in the understanding of the molecular basis of insecticide resistance in an important livestock ectoparasite. / Doutorado / Genetica Animal e Evolução / Doutor em Genetica e Biologia Molecular

Cochliomyia hominivorax

Resistencia aos inseticidas

Carboxilesterase

Canais de sódio

Acetilcolinesterase

Cochliomyia hominivorax

Insecticide resistance

Carboxylesterase

Sodium channels

Acetylcholinesterase

Effects of an insecticide on German cockroach behavior

Bret, Brian Louis

04 March 2009

A quantitative and qualitative study of the behavioral effects of an insecticide on various life stages of the German cockroach, Blattella germanica (L.), was conducted. Comparisons between a susceptible laboratory strain (VPI) and a resistant field strain (BP) were made to examine the relationship between physiological resistance and behavioral resistance. The effects of vapors from a formulation of 1% propoxur in oil were compared with vapors from a mineral oil control. Vapors from the control had little effect on cockroach behavior. Adult males, adult females, and middle instars were repelled from aquaria containing the insecticide vapors. Early instars sought shelter in the pores of water sponges. No differences in behavior due to reproductive state were observed as females with oothecae and females without oothecae were equally repelled. Responses by adult males included increased movement, antennal grooming, and tarsal grooming. Electroantennogram studies showed that the vapors of the propoxur formulation were detected by the antennae. Adults of the susceptible VPI strain responded more strongly to the insecticide vapors, relative to the controls, than did adults of the resistant BP strain. The negative correlation between physiological resistance and behavioral responses was not due to the development of behavioral resistance. Rather the resistance mechanism of the BP strain was probably responsible for inhibiting the behavioral response of that strain. Responses to the propoxur insecticide may have been compounded by solvents in the formulation, but differences between the two strains were probably due to the propoxur. The oil base had no effect on cockroach behavior. That wet sponges provided safe harborage for the early instars indicates the importance of even short range dispersal. Also, the use of repellent barriers to exclude cockroaches from sensitive areas may become less effective if physiological resistance in cockroach populations is accompanied by decreased avoidance responses. Knowledge of the levels of physiological resistance must be supplemented by an understanding of the behavioral characteristics of insect populations for the successful development of pest control programs. / Ph. D.

LD5655.V856 1985.B737

Blattella germanica -- Behavior

Blattella germanica -- Physiology

Small Core Heterocyclic Carbamates and Carboxamides: Resistance-breaking Acetylcholinesterase Inhibitors Targeting the Malaria Mosquito, Anopheles gambiae

Verma, Astha

13 June 2014

Malaria is one of the deadliest diseases known to mankind. In 2010, 219 million cases were reported, and 666,000 deaths were attributed to this disease. In the past, pyrethroid-treated mosquito nets have shown efficacy in reducing malaria transmission in many malaria endemic regions. However, an upsurge in the mosquito population that is resistant to pyrethroids threatens to compromise the efficacy of pyrethroid-treated bed nets. In an effort to develop another class of insecticide with a different mode of action, we have explored three classes of five membered heterocyclic carbamates (isoxazol-3-yl, pyrazol-5-yl, and pyrazol-4-yl), and 3-oxoisoxazole- 2(3H)-carboxamide as acetylcholinesterase inhibitors (AChE) targeting wild type (G3) and resistant (Akron) malaria mosquito Anopheles gambiae (Ag). Isoxazole carboxamide and carbamates were obtained regioselectively through judicious use of two different protocols. The final products were characterized and identified using ¹H and ¹³C NMR, and mass spectroscopy. In addition, the carboxamide structure was confirmed using X-ray diffraction. Several of the novel carbamates and carboxamides evaluated exhibited excellent toxicity towards susceptible G3 and resistant Akron strain An. gambiae (48f LC₅₀ G3 = 41 μg/mL, LC₅₀ Akron = 58 μg/mL, and 47i LC₅₀ G3 = 38 μg/mL, LC₅₀ Akron = 40 μg/mL). Hence, achieving the resistance- breaking goal. On the contrary, the commercial aryl methylcarbamates currently approved for indoor residual sprays (IRS) showed no potency towards the resistant strain An. gambiae (LC₅₀ G3 = 16-42 μg/mL, and LC₅₀ Akron >5,000 μg/mL). Further, we observed low toxicological cross-resistance ratios (RR) for the toxic isoxazol-3-yl and pyrazol-4-yl carbamates, and 3- oxoisoxazole-2(3H)-carboxamides (RR = 0.5-2.0). Amongst the commercial AChE inhibitors approved for IRS, only aldicarb exhibited such low RR (RR = 0.5), whereas the RR for commercial aryl methylcarbamates exceed 130-fold. The low RR observed for these novel heterocyclic inhibitors would certainly be favorable for a new anticholinesterase-based mosquitocide targeting both the susceptible and resistant strain mosquitoes. Although the overall selectivity (Ag vs human) did not exceed 24-fold, the heterocyclic carbamates and carboxamides synthesized by the author showed appreciable inhibition of resistant AChE (G119S) in comparison to commercial aryl carbamates, which showed no inhibition at all. During the course of this project, the isoxazol-3-yl and pyrazol-5-yl methylcarbamates proved to be unstable, and thus could not be isolated. The synthesis of pyrazol-4-yl methylcarbamates using N-methylcarbamoyl chloride proved particularly challenging due to the formation of by-products called allophanates. The similar Rf of the by-product and the desired final product made the isolation laborious and time-consuming. We have successfully overcome this problem by employing a new protocol, where triphosgene served as the carbonylating agent and N-methylamine in THF was used as the amine source. In addition, we have also developed another one-pot protocol for a safer synthesis of pyrazol-4-yl methylcarbamates utilizing 1,1- carbonyldiimidazole (CDI), and N-methylamine hydrogen chloride salt. With the pyrazol-4-yl core, apart from achieving excellent toxicity towards both strains of An. gambiae, we have also achieved excellent AgAChE vs hAChE selectivity (Ag vs h >100-fold). Due to our continued interest in developing this core, we have devised a convenient, scalable, no-column approach for the synthesis an intermediate 103 that can be utilized to synthesize these compounds more efficiently. / Ph. D.

Acetylcholinesterase

1,2-azoles

Anopheles gambiae

heterocyclic carbamates and carboxamides

isoxazole

insecticide treated nets

malaria

pyrazoles

propoxur

insecticide resistance

species-selective inhibitors.

Fluoromethyl ketone prodrugs: Potential new insecticides towards Anopheles gambiae

Camerino, Eugene

29 June 2015

Malaria continues to cause significant mortality in sub-Saharan Africa and elsewhere, and existing vector control measures are being threatened by growing resistance to pyrethroid insecticides. With the goal of developing new human-safe, resistance-breaking insecticides we have explored several classes of acetylcholinesterase inhibitors. In vitro assay studies demonstrate that tri- and difluoromethyl ketones can potentially inhibit An. gambiae AChE (AgAChE). These compounds inhibit the enzyme by making a covalent adduct with the catalytic serine of AChE. Trifluoromethyl ketones however are poor inhibitors of the G119S resistant mutant of AgAChE. However difluoromethyl ketones can inhibit G119S AgAChE and compound 3-10g showed an IC₅₀ value of 25.1 nM after 23h incubation time. Despite this potent inhibition of AgAChE, the tri-, di-, and (mono)fluoroketones showed very low toxicity to An. gambiae, perhaps due to hydration and rapid clearance. In an attempt to improve An. gambiae toxicity, oximes and oxime ethers of these compounds were prepared as potential prodrugs. These structures identified trifluoromethyl ketone oxime 3-2d as a potent toxin against both wild-type (G3-strain) and a multiply resistant (Akron) strain of An. gambiae. This compound is within 3-fold of the toxicity of propoxur to wild type An. gambiae (LC₅₀ values of 106 and 39 µg/mL, respectively). Most significantly, 3-2d was much more toxic than propoxur to multiply-resistant (Akron) strain An. gambiae (LC₅₀ = 112 and >5,000 µg/mL, respectively). However, thus far we have not been able to link the toxicity of these compounds to a cholinergic mechanism. Pre-incubation studies suggest that significant hydrolysis of these compounds to TFKs does not occur over 22 h at pH 7.7 or 5.5. The mechanism of action of 3-2d remains unknown. Our enzyme inhibition studies have demonstrated that 3-2d does not hydrolyze to the trifluoromethyl ketone 2-9d at pH 7.7. The high Akron toxicity of 3-2d and poor inhibition of G119S AgAChE by 2-9d argue against enzyme mediated conversion of 3-2d to 2-9d within the mosquito. Thus, we can rule out an AChE inhibition mechanism for toxicity. Additional experiments by our collaborator (Dr. Jeffrey Bloomquist, University of Florida) also rule out inhibition of mitochondrial respiration or agonism of the muscarinic acetylcholine receptor. Future work will address other potential insecticidal modes of action. / Ph. D.

Acetylcholinesterase

trifluoromethyl ketones

difluoromethyl ketones

fluoromethyl ketones

Anopheles gambiae

insecticide treated nets

malaria

pyrazoles

propoxur

insecticide resistance

oxime

oxime ether

Análise da ocorrência de transposição em regiões reguladoras dos genes da família Cyp em espécies de Drosophila /

Ricci, Julcimary.

January 2009

Orientador: Claudia Marcia Aparecida Carareto / Banca: Ricardo De Marco / Banca: André Luís Laforga Vanzela / Resumo: A resistência aos inseticidas é um modelo de processo evolutivo onde o inseticida atua como agente seletivo e, como resposta à seleção, ocorre a evolução da resistência nas populações de insetos. As enzimas citocromo P450 monooxigenases (CYP) formam uma família responsável pela resistência aos inseticidas. Tem sido proposto que a inserção de elementos transponíveis (TEs) em regiões reguladoras ou codificadoras dos genes da família Cyp pode alterar a expressão gênica e induzir a resistência aos inseticidas. No presente estudo foram realizadas análises in silico que permitiram identificar a ocorrência de inserções de fragmentos de TEs em 35 genes Cyps com diferentes funções, e em seus genes flanqueadores, em Drosophila melanogaster e D. simulans, além de 13 genes Cyps de seis espécies do grupo melanogaster de Drosophila. As inserções de TEs ocorreram principalmente nas regiões flanqueadoras 5' dos Cyps associados à resistência aos inseticidas e à função monooxigenase geral. Os resultados não indicaram qualquer relação entre a distância em relação ao gene e o número de inserções. As análises mostraram que a maioria das inserções pertence à classe de transposons de DNA, sendo o transposon DNAREP1_DM o que apresentou o maior número de cópias. O fato de essas seqüências apresentarem putativos sítios de ligação de fatores de transcrição sugere que possam desempenhar algum papel na regulação dos genes Cyps. Também foi analisada a ocorrência de polimorfismos de inserção de TEs em regiões flanqueadoras de genes da família Cyp, em diferentes linhagens geográficas resistentes e suscetíveis, de D. melanogaster e D. simulans. Análises evidenciaram a presença de polimorfismo interpopulacional de tamanho das regiões flanqueadoras dos genes Cyp6w1, Cyp6a2 e Cyp12d1, porém, não indicaram... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Insecticide resistance is a model of evolutionary process where the insecticide acts as the selective agent and resistance in the insect populations evolves as an answer to selection. Cytochrome monooxygenases (CYP) is family of enzymes responsible for the insecticide resistance. It has been proposed that insertion of transposable elements (TEs) in regulatory or coding regions of the Cyp genes can alter gene expression and induce insecticide resistance. In the present study in silico analyses allowed identifying the insertion of TE fragments in 35 Cyp genes with different functions, in Drosophila melanogaster and D. simulans, as well as in 13 Cyps of six species of the melanogaster group of Drosophila. The TE insertions occurred mainly in the 5' flanking regions of Cyp genes associated to resistance and to those with a general monooxygenase function. The results did not indicate any relationship between the number of insertions and the distance in relation to the gene. The analyses showed that most of the insertions belong to the DNA transposon class, being DNAREP1_DM the most numerous. Since this element carry putative biding sites of transcription factors it can be suggested they play same role in gene regulation. The polymorphism of TE insertions in the flanking regions of Cyp6w1, Cyp6a2 and Cyp12d1, genes associated to resistance, found in resistant and as well as in susceptible geographical strains of D. melanogaster and D. simulans, does not indicate any relationship between the presence of TEs in those regions and the insecticide resistance. The results also showed that the insertions of TEs in the proximities of the Cyps associated to resistance is differential among six species of the melanogaster group, not following the genomic proportion of TEs in each species. These results also suggest that TEs inserted in the Cyp flanking regions can carry out an adaptive... (Complete abstract click electronic access below) / Mestre

Expressão gênica.

Genética animal.

Drosofila.

Resistencia a inseticidas.

Cyps. eng

Transposable elements. eng

Gene expression regulation. eng

Insecticide resistance. eng

Melanogaster group. eng

Influence de l’architecture génétique et des variations environnementales sur l’adaptation : la résistance aux insecticides chez les moustiques / Impact of genetic architecture and environmental variations on adaptation : insecticide resistance in mosquitoes

Milesi, Pascal

18 December 2015

Les mutations sont à l'origine des nombreux "variants" présents dans les populations naturelles. Les variants adaptatifs sont propagés par sélection naturelle. Cependant, une mutation bénéfique sur un trait peut affecter négativement d’autres traits (coût sélectif): un compromis émerge alors entre les avantages et les coûts qu’elle induit. Cette thèse vise à comprendre comment des modifications de l’environnement peuvent affecter les compromis évolutifs de différents types de mutations adaptatives (substitutions, duplications hétérogènes, amplifications). Chez les moustiques, l’utilisation d’insecticides organophosphorés (OPs) et carbamates (CXs) a sélectionné trois réponses adaptatives majeures : une amplification de gènes au locus Ester (codant pour des enzymes détoxicantes), une substitution au locus ace-1 (codant pour la cible des insecticides), et des duplications associant une copie sensible et une copie résistante du locus ace-1. Un premier axe de ma thèse a été de mieux comprendre le rôle de ces duplications hétérogènes (qui associent deux copies divergentes d’un même gène) dans l’adaptation. En caractérisant leurs compromis évolutifs nous avons montré qu'elles confèrent un phénotype proche de celui d’hétérozygotes standards. Toutefois, l’étude de leur distribution mondiale et des analyses en laboratoire ont révélé que ces duplications, avantageuses à l’état hétérozygote, sont majoritairement sublétales à l’état homozygote. Le second axe de cette thèse a été l’étude de l’influence des variations de pression de sélection sur la dynamique des allèles adaptatifs. Une étude d’évolution expérimentale a montré que des pressions de sélection intermédiaires pouvaient générer des situations de superdominance au locus ace-1, favorables à la sélection de duplications hétérogènes. Par ailleurs, l’analyse d’échantillons montpelliérains récoltés sur une trentaine d’années nous a permis de relier quantitativement les variations de la pression de sélection et les variations de la valeur sélective des différents allèles du locus Ester. Enfin, l’étude de trois zones géographiques (Mayotte, Martinique, et Montpellier) a permis de montrer que les différentes adaptations ne répondaient pas de la même façon à une modification environnementale majeure liée au retrait de la pression de sélection (interdiction des OPs et CXs en 2007) : alors que les allèles de résistance du locus ace-1 tendent à disparaitre, ceux du locus Ester se maintiennent en fréquence non négligeable dans les populations naturelles. / Mutations are the origin of the many "variants" present in natural populations. Adaptive variants are propagated by natural selection. However a mutation beneficial for a trait can negatively affect other traits (selective cost): a trade-off thus emerges between the benefits and the costs it induces. This PhD aimed at understanding how environmental changes could affect the evolutionary trade-offs of various types of adaptive mutations (substitutions, heterogeneous duplications, amplifications). In mosquitoes, organophosphate (OPs) and carbamates (CXs) insecticides usage has selected three major adaptive responses: gene amplifications at the Ester locus (encoding detoxifying enzymes), a substitution at the ace-1 locus (encoding the target of the insecticides), and gene duplications pairing susceptible and resistance ace-1 copies. The first axis of my PhD aimed at understanding the role of these heterogeneous duplications (combining two different copies of the same gene) in adaptation. Characterizing their evolutionary trade-offs, we showed that they confer a phenotype similar to standard heterozygotes. However, the study of their worldwide distribution and laboratory analyzes showed that these duplications, advantageous at the heterozygous state, are mostly sublethal when homozygous. The second axis of this PhD was the study of the impact of selection pressure variations on the dynamics of adaptive alleles. An experimental evolution study showed that intermediate selective pressures could generate overdominance situations at the ace-1 locus, promoting the selection of heterogeneous duplications. Furthermore, analyzing Montpellier samples collected over a 27 years period allowed us establishing the quantitative relationship between selective pressure variations and fitness variations for the different Ester resistance alleles. Finally, by studying three different geographical areas (Mayotte and Martinique islands and Montpellier) we showed that the various adaptations were not responding similarly to a major environmental change resulting from the selection pressure withdrawal (OPs and CXs were banned in 2007): while the ace-1 locus resistance alleles tended to disappear, those of the Ester locus remained at a significant frequency in natural populations.

Résistance aux insecticides

Compromis évolutifs

Duplications de gènes

Populations naturelles

Biologie intégrative

Génétique de l'adaptation

Insecticide resistance

Evolutionary trade-Offs

Gene duplications

Natural populations

Integrative biology

Adaptation genetics

Bases genéticas e moleculares da resistência de Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae) a spinosad / Genetic and molecular basis of Spodoptera frugiperda (J.E. Smith) (Lepidoptera: Noctuidae) resistance to spinosad

Okuma, Daniela Miyuki

23 October 2015

O inseticida spinosad tem sido um dos mais utilizados para o controle de Spodoptera frugiperda (J. E. Smith) no Brasil, devido à sua eficácia e ao seu mecanismo de ação único (modulador alostérico de receptores nicotínicos da acetilcolina). Para fornecer subsídios a um programa de manejo da resistência, foram realizados estudos para compreender as bases genéticas e moleculares da resistência de S. frugiperda a este inseticida. Inicialmente, foi selecionada uma linhagem de S. frugiperda resistente a spinosad (Spin-res) em laboratório por meio da técnica \"F2 screen\". A razão de resistência, baseada na CL50, foi de aproximadamente 890 vezes. A partir de cruzamentos recíprocos entre a linhagem suscetível (Sus) e Spin-res, constatou-se que o padrão de herança da resistência de S. frugiperda a spinosad é autossômica e incompletamente recessiva. Retrocruzamentos da progênie F1 de cruzamentos recíprocos com a linhagem Spin-res confirmaram a hipótese de herança poligênica da resistência, com número mínimo de segregações independentes variando de 1,86 a 2,45. Além disso, observou-se um elevado custo adaptativo associado à resistência de S. frugiperda a spinosad, baseado nos parâmetros da tabela de vida e fertilidade. A partir dos dados de seqüenciamento de quatro bibliotecas de cDNA de lagartas de quarto ínstar das linhagens Sus e Spin-res (expostas ou não a spinosad), utilizando a plataforma HiScan1000&reg; (Illumina&copy;), foi realizada a comparação do perfil de transcrição e expressão diferencial de genes entre as linhagens Sus e Spin-R. O transcritoma foi montado utilizando a estratégia de novo contendo cerca de 19 milhões de leituras single-end com qualidades de score acima de 30, gerando 42406 transcritos com o N50 de 598 pb. A busca por similaridade no banco de dados não-redundante (nr) do NCBI, possibilitou a anotação funcional de 24980 (59%) transcritos, alinhando-se a Bombyx mori L., Helicoverpa armigera (Hübner) e Spodoptera spp. com 22,5; 3,81 e 3,6% das sequências respectivamente. Foram identificados 2903 transcritos apresentando expressão diferencial (P <= 0,05, t-test; fold-change > 2) entre as linhagens Spin-res e Sus. Dentre os transcritos relacionados a enzimas do complexo metabólico, 23 P450 monooxigenases, 13 glutathiona S-transferases, uma carboxilesterase e uma esterase foram superexpressas na linhagem Spin-res. Além disso, foi observada a superexpressão de 15 genes relacionados à produção energética na linhagem Spin-res, o que pode estar relacionada ao elevado custo adaptativo associado à resistência. Análises de PCR quantitativo em tempo real confirmaram que os padrões de expressão foram consistentes com os resultados de RNA-seq. Bioensaios com os sinergistas PBO e DEM mostraram pouco envolvimento de enzimas P450 e nenhum envolvimento de glutationa S-transferases na resistência de S. frugiperda a spinosad. O sequenciamento da subunidade &alpha;6 do receptor nicotínico de acetilcolina de ambas linhagens demonstrou a existência de uma mutação sinônima entre as duas linhagens (G567A), indicando que a subunidade &alpha;6 não é a única relacionada à resistência de S. frugiperda a spinosad. / Spinosad has been one of the most used insecticides to manage Spodoptera frugiperda (J. E. Smith) in Brazil, due to its efficacy and unique mode of action (nicotinic acetylcholine receptor allosteric modulator). To support an insect resistance management program (IRM), we selected and characterized in laboratory a spinosad-resistant strain (Spin-res) of S. frugiperda using the F2 screen method. The resistance ratio, based on LC50, was &asymp; 890-fold. Based on reciprocal crosses between susceptible (Sus) and Spin-res, the inheritance of spinosad resistance in S. frugiperda was autosomal incompletely recessive. Backcrosses between the F1 from reciprocal crosses and the parental Spin-res revealed a polygenic resistance, with an estimation of at least 1.86 to 2.45 genes related to spinosad resistance. Furthermore, it was observed a strong fitness cost associated to spinosad-resistance in Spin-res strain, based on the life table and fertility parameters. The characterization of the transcriptional profile and the differential gene expression comparison between susceptible and spinosad-resistant strains of Spodoptera frugiperda were obtained from the sequencing of cDNA libraries from fourth instar larvae of Sus and Spin-res strains (exposed or not to spinosad) using a HiScan1000&reg; platform (Illumina&copy;). The transcriptome was de novo assembled using nearly 19 million single-end reads with quality score over 30, yielding 42,406 transcripts with a N50 of 598 bp. Based on similarity search in the non-redundant (nr) nucleotide database, 24,980 (59%) transcripts were annotated. Most of the transcripts aligned to Bombyx mori L., Helicoverpa armigera (Hübner) and Spodoptera spp., with 22.5%, 3.81, and 3.6, respectively. We identified 2,032 differentially expressed transcripts (P <= 0.05, t-test; fold-change > 2) between the susceptible and spinosad-resistant strains. Among metabolic enzyme transcripts, 23 P450 monooxigenases, 13 glutathione S-transferases, one carboxylesterase and one esterase were up-regulated in the spinosad-resistant strain. In addition, it was observed 15 genes superexpressed in spinosad-resistant strain related to energy production, which can be related to the high fitness cost associated with resistance. Quantitative real-time PCR analysis showed that patterns of gene expression were consistent with RNA-seq results. Synergistic bioassays using PBO and DEM showed little involvement of P450s in spinosad-resistance and lack of involvement regarding the glutathione Stransferases. Furthermore, we sequenced and compared the subunit &alpha;6 from the nicotinic acetylcholine receptor of S. frugiperda Spin-res and Sus strains. Only one synonymous mutation within the two strains (G567A) was found, showing that the &alpha;6 is not the only subunit involved in S. frugiperda resistance to spinosad.

Spodoptera frugiperda

Spodoptera frugiperda

Custo adaptativo

Differential gene expression

Expressão diferencial de genes

Fitness cost

Herança

Inheritance

Insecticide resistance

Resistência de insetos a inseticidas

Spinosad

Spinosad

Transcriptome analysis

Transcritoma

Resistência de Rhipicephalus (Boophilus) microplus (Acari: Ixodidae) a fipronil: Padronização de bioensaios in vitro, detecção de resistência em populações de campo e avaliação sobre resistência cruzada com outras drogas. / Resistance of Rhipicephalus (Boophilus) microplus (Acari: Ixodidae) to fipronil standardization of in vitro bioassays, detection of resistance in field populations and evaluation of cross-resistance with other drugs.

Janer, Eleonor Adega Castro

02 December 2010

Para o sucesso das estratégias de manejo de Rhipicephalus (Boophilus) microplus (carrapato bovino) são necessários testes práticos, econômicos e confiáveis que possam detectar a presença de fenótipos resistentes a drogas em suas populações. O fipronil é um acaricida de uso relativamente recente não havendo testes padronizados para o diagnóstico de resistência do carrapato à molécula. No presente trabalho, foram padronizados bioensaios in vitro para esta finalidade: Teste de Imersão de Adultas, Teste de Imersão de Larvas e Teste de Pacote com Larvas. Os testes foram aplicados e, de forma inédita, populações resistentes foram diagnosticadas tanto no Brasil quanto no Uruguai. Ensaios com inibidores enzimáticos não evidenciaram participação importante de enzimas detoxificadoras no mecanismo de resistência. Foi demonstrada reação cruzada entre fipronil e lindano, não verificada para ivermectina. Em algumas situações, foi observado interferência do controle químico de pragas agrícolas no desenvolvimento de resistência dos carrapatos. / For the success of the strategies for the management of Rhipicephalus (Boophilus) microplus (cattle tick), practical, economical and reliable tests are needed to detect the presence of drug-resistant phenotypes in their populations. Fipronil is a relatively new acaricide with no standardized tests for the diagnosis of tick resistance to this molecule. In this study, were standardized in vitro bioassays for this purpose: Adult Immersion Test, Larval Immersion Test and Larval Packet Test. The tests were applied and for the first time, resistant populations were diagnosed in Brazil and Uruguay. Tests with enzymatic inhibitors showed no significant involvement of detoxification enzymes in the mechanism of resistance. Cross-resistance was demonstrated between lindane and fipronil but not with ivermectin. In some situations, it was observed interference of the chemical control of agricultural pests in the development of resistance in ticks.

Boophilus microplus (control)

Boophilus microplus (controle)

Animal genetic resistance

Bioassays

Bioensaios

Bovinos (Doenças)

Carrapatos (resistência a inseticidas)

Cattle (Disease)

Diagnosis

Diagnóstico

Resistência genética animal

Ticks (insecticide resistance)