Efecto tóxico de los extractos de semillas de Annona muricata potenciados con dimetilsulfóxido sobre larvas IV y pupas de Aedes aegypti / Toxic effect of Annona muricata seed extracts potentiated with dimethyl sulfoxide on IV larvae and pupae of Aedes aegypti

Resumen El objetivo de este estudio fue demostrar que los principios activos de las semillas de Annona muricata combinados con el extracto etanólico y dimetilsulfóxido (EE-DMSO), incrementan la mortalidad de larvas IV y pupas de Aedes aegypti con relación a extractos acuosos (EA) y extractos etanólicos (EE). Las bioactividades se calcularon por comparación de los porcentajes de mortalidad a las 6, 12, 24 y 48 horas in vitro y campo simulado. Los resultados indicaron mortalidad progresiva dependiente de las concentraciones y tiempos de exposición en larvas y reacción knock-down en pupas. In vitro a 5 mg.L-1, EA y EE ejercieron 100% de mortalidad larvaria en 24 horas de exposición (CL50=46.16 y 19.28 mg.L-1 respectivamente), en contraste con EE-DMSO, que inició sobre 62% con 0.5 mg.L-1 a las 6 horas (CL50=20.33 mg.L-1). La acción pupicida de EA y EE reveló 100% de mortalidad desde 24 horas en todas las concentraciones, a diferencia de EE-DMSO que se alcanzó entre 6 y 12 horas. En campo simulado, EA y EE ejercieron 100% de mortalidad a las 24 horas en larvas (16.91 y 21.21 mg.L-1 ), mientras que en pupas (20.44 y 23.03 mg.L-1) ocurrió a las 12 horas, entretanto, la actividad pupicida de EE-DMSO fue 100% en 6 horas. Los efectos comparativos in vitro y campo simulado denotaron patrones similares de respuestas larvicida y pupicida, pero con mayor sensibilidad en pupas. Los principios activos de las semillas de A. muricata combinados con EE-DMSO potencian la respuesta mortal de larvas y pupas de A. aegypti in vitro y campo simulado.

Abstract The objective of this study was to demonstrate that active ingredients of Annona muricata seeds can be enhanced as a result of mixture of both ethanolic extract of A. muricata seeds and Dimethylsulfoxide (EE-DMSO). Percentage mortalities at 6, 12, 24 and 48 hours on fourth instar larvae and pupae of Aedes aegypti were calculated in order to compare bioactivities of aqueous (AE), ethanolic extracts (EE) and EE-DMSO under laboratory and simulated field conditions. Results showed larval mortality concentration- and time-dependent, and knock-down responses in pupae. In laboratory, AE and EE exerted 100% larval mortality at 5 mg.L-1 after 24 hours (LC50= 46.16 and 19.28 mg.L-1). Conversely, EE-DMSO showed between 62 - 100% mortality at 0.5 mg.L-1 for over 6 hours (LC50= 20.33 mg.L-1). Pupicidal effects in AE and EE revealed 100% mortality at 24 hours employing all concentrations, except in EE-DMSO which commenced when individuals were exposed between 6 and 12 hours. In simulated field, AE and EE provoked 100% larval mortality at 24 hours (16.91 y 21.21 mg.L-1) while pupal mortality at 12 hours (20.44 y 23.03 mg.L-1). Percentage mortality of pupae was 100% using EE-DMSO even before 6 hours. Comparative toxic effects of laboratory and simulated-field systems have shown to maintain a similar pattern of larval mortality and more sensitive responses in pupae. Accordingly, larval and pupal mortality responses of A. aegypti were enhanced with the use of EE-DMSO and active ingredients of A. muricata seeds under laboratory and simulated field conditions.

Acetylcholinesterase and α-Amylase inhibitors from Mouriri elliptica Martius leaf extract / Inibidores da acetilcolinesterase e α-amilase do extrato da folha de Mouriri elliptica Martius

Population growth has raised food production, and new sources are needed to increase quantity and quality of agricultural products. Carbamates and organophosphates are insecticide classes used worldwide as acetylcholinesterase (AChE) inhibitors. Plants have a natural resistance to insects, which can be employed in pest control as a new alternative to reduce the use of chemicals. An alternative may be the use of α-amylase inhibitors, which are digestive enzymes that impair pest species growth and development. Another would be acetylcholinesterase inhibitors since they damage the normal functioning of the central and peripheral nervous system, by releasing high concentrations of acetylcholine in cholinergic synapses. This substance accumulation increases stimulations that lead to behavioral changes, asphyxia, hyperactivity, and death. Botanical agrochemicals are believed to have advantages over synthetic ones, as they are rapidly degraded in the environment. In this scenario, plants have played an important role in pest control as sources of interest for the synthesis of new molecules for agricultural use. The present study evaluated acetylcholinesterase and α-amylase inhibition by microplate method, from leaf extracts of Mouriri elliptica Martius with different polarities.

O crescimento populacional tem aumentado a quantidade de produção alimentícia, sendo necessárias novas fontes para o aumento da quantidade e qualidade dos produtos agrícolas. Os carbamatos e organofosforados são classes de inseticidas utilizadas em todo o mundo, são inibidores da acetilcolinesterase (AChE). Os vegetais possuem uma resistência natural aos insetos, e esse método de resistência pode ser utilizado no controle das pragas como uma nova alternativa para redução do uso de inseticidas químicos, tais como os inibidores da α-amilase, enzima digestiva, a qual sua inibição prejudica o crescimento e desenvolvimento de espécies de pragas. E os inibidores da acetilcolinesterase que danificam o funcionamento normal do Sistema Nervoso Central e Periférico, através de elevadas concentrações da acetilcolina que ficam depositadas nas sinapses colinérgicas. Este acúmulo de ACh provoca uma grande estimulação que leva á alterações comportamentais, asfixia, hiperatividade e a morte. Estudos já realizados mostraram que os agrotóxicos botânicos têm vantagens sobre os sintéticos, sendo degradados rapidamente no meio ambiente. Neste cenário os vegetais têm desempenhado um importante papel no controle de pragas, através da síntese de novas moléculas para uso na agricultura. O presente trabalho avaliou a inibição das enzimas acetilcolinesterase e α-amilase através do método da microplaca a partir dos extratos das folhas de Mouriri elliptica Martius em diferentes polaridades.

Fumigant toxicity and biochemical properties of (α + β) thujone and 1, 8-cineole derived from Seriphidium brevifolium volatile oil against the red imported fire ant Solenopsis invicta (Hymenoptera: Formicidae)

ABSTRACT The excessive use of chemical insecticides has led to negative effects on human health and the environment. Volatile oils are one of the possible potential alternatives to chemical insecticides. Traditionally Seriphidium brevifolium (Wall. ex DC.) Ling & Y.R.Ling, Asteraceae, powder from its leaves is used to treat gastric problems and expel intestinal worms by local peoples, but yet there is no literature available regarding its insecticidal activity. In this study fumigant toxicity and enzyme inhibition activities of the S. brevifolium volatile oil collected from the highlands of Skardu Baltistan, Pakistan, was evaluated against the red imported fire ant Solenopsis invicta. The phytochemical studies indicated that monoterpenes were the most abundant constituents, accounting for 88% of the total oil. The major dominant constituents were 2-bornanone (28.2%), 1,8-cineole (19.9%), α-thujone (7.5%), β-thujone (6.7%) which accounts for 62.3% of total constituents identified, with volatile oil yield of 4.11% (w/w). The fumigation assay indicated that the volatile oil was acutely toxic to fire ants, with an LC50 of 16.47 µl/l. Among the constituents tested, only (α + β) thujone and 1,8-cineole were toxic, with LC50 of 17.68 and 30.66 µl/ after 12 h of exposure. The volatile oil, (α + β) thujone and 1, 8-cineole showed strong fumigant activity against the red imported fire ant workers in a time- and dose-dependent manner. The volatile oil caused 100% mortality of the red imported fire ant workers, even at the lowest concentration of 20 µl/l after 24 h of exposure. In addition, the volatile oil and 1,8-cineole inhibited acetylcholinesterase activity, while (α + β) thujone inhibited carboxylesterase activity in the fire ant workers. It has been concluded that the volatile oil and some of the compounds from S. brevifolium might be developed as eco-friendly approaches for the control of red imported fire ants.