Target Activity of Isaria tenuipes (Hypocreales: Clavicipitaceae) Fungal Strains against Dengue Vector Aedes aegypti (Linn.) and Its Non-Target Activity Against Aquatic Predators.

Sengodan Karthi,Tae-Jin Kim,Sengottayan Senthil-Nathan,Venkatachalam Ramasamy,Hanem F Khater,Kesavan Amala,Patcharin Krutmuang,Raja Ganesan,Narayanaswamy Radhakrishnan,Prabhakaran Vasantha-Srinivasan,Mohamed A El-Sheikh

doi:10.3390/jof6040196

Abstract

The present investigation aimed to determine the fungal toxicity of Isaria tenuipes (My-It) against the dengue mosquito vector Aedes aegypti L. and its non-target impact against the aquatic predator Toxorhynchites splendens. Lethal concentrations (LC50 and LC90) of My-It were observed in 2.27 and 2.93 log ppm dosages, respectively. The sub-lethal dosage (My-It-1 × 104 conidia/mL) displayed a significant oviposition deterrence index and also blocked the fecundity rate of dengue mosquitos in a dose-dependent manner. The level of major detoxifying enzymes, such as carboxylesterase (α-and β-) and SOD, significantly declined in both third and fourth instar larvae at the maximum dosage of My-It 1 × 105 conidia/mL. However, the level of glutathione S-transferase (GST) and cytochrome P-450 (CYP450) declined steadily when the sub-lethal dosage was increased and attained maximum reduction in the enzyme level at the dosage of My-It (1 × 105 conidia/mL). Correspondingly, the gut-histology and photomicrography results made evident that My-It (1 × 105 conidia/mL) heavily damaged the internal gut cells and external physiology of the dengue larvae compared to the control. Moreover, the non-target toxicity against the beneficial predator revealed that My-It at the maximum dosage (1 × 1020 conidia/mL) was found to be less toxic with <45% larval toxicity against Tx. splendens. Thus, the present toxicological research on Isaria tenuipes showed that it is target-specific and a potential agent for managing medically threatening arthropods.

Highlights

Parasites have been a major threat for millions of humans and animals since ancient times, bringing about chronic debilitating and disabling diseases [1]
Determining the mosquito resistance pattern against different groups of synthetic chemicals displays a significant role in managing arthropod vectors [29]
Due to up-surging resistance observed in synthetic chemicals, there is an urgent need for novel substitutes to managing blood-sucking pests

Summary

Introduction

Parasites have been a major threat for millions of humans and animals since ancient times, bringing about chronic debilitating and disabling diseases [1]. Mosquitoes (Diptera: Culicidae) are vectors for serious parasites and pathogens, including malaria, filariasis, and important arboviruses, such as dengue virus, yellow fever, chikungunya, West Nile virus, and Zika virus [2,3]. Aedes spp.is a vector transmitting the previously mentioned arboviruses, whose dispersion is wide-reaching [3,4]. Almost 40% of the global population live under hazard of dengue, and yearly, 24,000 deaths are reported. The incidence of dengue viruses has grown intensely around the world in the current scenario. The actual numbers of dengue cases are underreported and many cases are misclassified [4]

Methods

Results

Conclusion