Toxicidad y afectación en la locomoción de Triatoma dimidiata (Latreille 1811) (Hemiptera: Reduviidae: Triatominae) tratados con análogos de girgensohnina / Toxicity and affectation in locomotion of Triatoma dimidiata (Latreille 1811) (Hemiptera: Reduviidae: Triatominae) treated with analogues of girgensohnine

Resumen Introducción: Análogos del alcaloide girgensohnina, diseñados y sintetizados para inhibir a la enzima acetilcolinesterasa, han presentado efecto insecticida sobre insectos vectores de enfermedades. Objetivo: Determinar la actividad insecticida de 12 análogos sintéticos de gingersohnina sobre ninfas del primer estadio de Triatoma dimidiata. Materiales y Métodos: Se tomó como referencia el protocolo de la OMS 2005. Ninfas del primer estadio de T. dimidiata fueron expuestas a los análogos por aplicación tópica y exposición a superficies para determinar las dosis letales (DL50 y DL95) y verificar alteración en la locomoción mediante el software Videomex V. Resultados: El análogo 6 presentó la mayor actividad insecticida a las 72h con una mortalidad del 20,8% ± 3,57 para el tratamiento de topicación 25% ± 0,00 para las superficies no porosas. Las dosis letales de la molécula 6 fueron: DL50 1036,8 ± 0,38 ng/insecto y DL95 3991,4 ± 0,50 ng/insecto respectivamente. Con respecto a la locomoción, el análogo indujo un comportamiento similar al insecticida comercial deltametrina.

Abstract Introduction: Analogs of the girgensohnine alkaloid, designed and synthesized to inhibit acetylcholinesterase enzyme, have presented an insecticidal effect on vectors insects of diseases. Objective: To determine the insecticidal activity of 12 synthetic analogs of gingersohnine in first stage nymphs of Triatoma dimidiata. Materials and methods: WHO protocol 2005, using exploratory doses, was used to determine the best molecule according to its mortality. First stage nymphs of T. dimidiata were exposed to different doses of the analogs by topical application and surface exposure. Lethal doses (LD50 and DL95) and alterations in locomotion using Videomex V software were determined. Results: Analog 6 presented the highest insecticidal activity at 72 h with a mortality of 20.8% ± 3.57 for topical treatment and 25%±0,0 for non-porous surfaces evaluation. Analog 6 lethal doses were LD50 1036.8 ± 0.38 ng/insecto and DL95 3991.4 ± 0.508 ng/insecto, respectively. With regard to locomotion, analogue 6 induced a similar behavior to that observed for commercial insecticide deltametrin.

Synthesis of new α-amino nitriles with insecticidal action on Aedes aegypti (Diptera: Culicidae)

Abstract Aedes aegypti is the principal vector of arboviral pathogens that may cause diseases as dengue fever, chikungunya and zika. The harmful environmental effects of commercial pesticides coalesced with the development of insecticide-resistant populations encourage the discovery and generation of new alternative products as a tool to reduce the incidence of vector-borne diseases. In this work, through the classic three component Strecker reaction of commercial benzaldehydes, cyclic secondary amines and KCN, a new series of nine α-amino nitriles, girgensohnine analogs, has been synthetized and screened for larvicide and adulticide properties against A. aegypti, one of the dominant vectors of dengue, chikungunya and zika in tropical and subtropical areas all over the world. Molecules 3 and 4 were identified as potential larvicidal agents with LC50 values of 50.55 and 69.59 ppm, respectively. Molecule 3 showed 100% of mortality after 2 h of treatment when a concentration of 30 ppm in adulticidal assays was evaluated. Additionally, in order to elucidate the mode of action of these molecules, their acetylcholinesterase (AChE) inhibitory properties were evaluated using the Ellman assay. It was found that the molecules possess a weak AChE inhibitory activity with IC50 values between 148.80 and 259.40 µM, indicating that AChE could not be a principal target for insecticide activity.