Sengodan Karthi

The protective effect of melatonin against cypermethrin-induced oxidative stress damage in Spodoptera litura (Lepidoptera: Noctuidae)

Antioxidant enzymes form the first-line defense against free radicals damage in organisms. Their regulation depends mainly on the oxidant and antioxidant status of the cell, given that oxidants are their principal modulators. Therefore, the aim of the present study was to investigate the effect of melatonin on synthetic pyrethroid insecticide-induced antioxidative enzymes activity in Spodoptera litura larvae. In addition, activities of enzymatic antioxidants viz. superoxide dismutase (SOD), glutathione S-transferase (GST), catalase (CAT), glutathione reductase (GR), α, β-esterase, and acetylcholine esterase (AChE) were assessed. There was no significant change in GST levels in the melatonin-treated groups. Melatonin modulates cypermethrin-induced changes in the activities of esterase and AChE, whereas SOD, CAT, and GR activity was significantly increased in melatonin-treated samples when compared to control. In conclusion, the results of the current study revealed that SP toxicity activated oxidant systems in all antioxidant systems in some tissues of insects. Melatonin administration led to a marked increase in antioxidant activity and inhibited GST and AChE in most of the tissues studied.

Ultraviolet-B light induced oxidative stress: effects on antioxidant response of Spodoptera litura.

Ultraviolet light (UV-B), which emits radiation in the range of 280-315 nm, has been used worldwide in light trapping of insect pests. In this article, we test the hypothesis that one of the duration of UV-B exposure has a differential impact on oxidative stress marker enzymes in Spodoptera litura. Effect of UV-B exposure on total protein and antioxidant activities of superoxide dismutase (SOD), catalase (CAT), peroxidases (POX) and glutathione-S-transferase (GST) were investigated in S. litura. The adults were exposed to UV-B light for various time periods (0, 30, 60, 90 and 120 min). We found that exposure to UV-B light for 30 and 60 min resulted in increased activities of POX. When the exposure time lasted for 60 and 90 min, the activities of SOD remained significantly higher than the control. However, the POX, CAT and GST activity decreased to control levels at 90 and 120 min. whereas relatively long duration exposure activates the xenobiotics detoxifying enzymes like GST and POX and CAT enzymes. Longer UV-B exposure may interfere with pesticide detoxification mechanism in insects, making them more susceptible to insecticides.

Mosquitocidal Effect of Glycosmis pentaphylla Leaf Extracts against Three Mosquito Species (Diptera: Culicidae)

Background The resistance status of malaria vectors to different classes of insecticides used for public health has raised concern for vector control programmes. Alternative compounds to supplement the existing tools are important to be searched to overcome the existing resistance and persistence of pesticides in vectors and the environment respectively. The mosquitocidal effects of Glycosmis pentaphylla using different solvents of acetone, methanol, chloroform and ethyl acetate extracts against three medically important mosquito vectors was conducted. Methods Glycosmis pentaphylla plant leaves were collected from Kolli Hills, India. The WHO test procedures for larval and adult bioassays were used to evaluate extracts against mosquito vectors, and the chemical composition of extracts identified using GC-MS analysis. Results The larvicidal and adulticidal activity of G. pentaphylla plant extracts clearly impacted the three species of major mosquitoes vectors. Acetone extracts had the highest larvicidal effect against An. stephensi, Cx. quinquefasciatus and Ae. aegypti with the LC50 and LC90 values of 0.0004, 138.54; 0.2669, 73.7413 and 0.0585, 303.746 mg/ml, respectively. The LC50 and LC90 adulticide values of G. pentaphylla leaf extracts in acetone, methanol, chloroform and ethyl acetate, solvents were as follows for Cx. quinquefasciatus, An. stephensi and Ae. Aegypti: 2.957, 5.458, 2.708, and 4.777, 3.449, 6.676 mg/ml respectively. The chemical composition of G. pentaphylla leaf extract has been found in 20 active compounds. Conclusions The plant leaf extracts of G. pentaphylla bioactive molecules which are effective and can be developed as an eco-friendly approach for larvicides and adulticidal mosquitoes vector control. Detailed identification and characterization of mosquitocidal effect of individual bioactive molecules ingredient may result into biodegradable effective tools for the control of mosquito vectors.

Time-of-day specific changes in pesticide detoxification ability of Spodoptera litura (Lepidoptera: Noctuidae)

Circadian clocks govern daily physiological and molecular rhythms, and putative rhythms in the expression of metabolizing xenobiotics have been described in insects. Such rhythms could have important consequences for outcomes of chemical exposures at different times of the day. The proportion of photophase (light) and scotophase (dark) also influence the enzyme activities. Several studies have been done on the mechanism of insecticide resistance in Spodoptera litura exposed to chemical insecticides. This study is aimed at understanding the circadian variations of cypermethrin detoxification mechanisms in S. litura. The toxicity of insecticide, cypermethrin exposed to three different photoperiods in 3rd instar larvae of S. litura has been investigated. Detoxification enzyme profiles of α- and β-esterases, glutathione S-transferase (GST), and cytochrome P450 (Cyt P450) were assessed. The results showed that larvae were more tolerant to cypermethrin treated larvae at 8 h L: 16 h D photoperiod as compared with two other photoperiods tested. We observed significant increases in α- and β-esterases and cyt P450 activities in 4 and 8 h at different photoperiods. GST activity was significantly changed at different photoperiods at different timings. Activities of specific detoxification enzymes fluctuated during the time, and for specific insecticides, the concentration resulting in 50% mortality varied significantly during the different photoperiods. The time of the day when chemical exposure is imposed should be an important consideration in the experimental design, and use of pesticides.

Comparative Analysis of Major Mosquito Vectors Response to Seed-Derived Essential Oil and Seed Pod-Derived Extract from Acacia nilotica

Botanical metabolites are increasingly realized as potential replacements to chemical insecticides. In the present study, Acacia nilotica seed essential oil and seed pod solvent extracts were tested for bioefficacy against three important types of mosquitoes. Mortality was recorded 24 h post-treatment, while smoke toxicity of adult mosquitoes was recorded at 10 min intervals for 40 min. Seed pod powder was extracted with different solvents and hydrodistilled seed oil chemical constituents were determined by using Gas chromatography mass spectroscopy (GC-MS) -. Larvicidal and adulticidal efficacy of seed hydrodistilled essential oil and solvent extracts were tested against larval and adult mosquitoes. The seed hydrodistilled oil provided strong larvicidal activity against Anopheles stephensi, (LC50 (lethal concentration that kills 50% of the exposed larvae) = 5.239, LC90 (lethal concentration that kills 90% of the exposed larvae) = 9.713 mg/L); Aedes aegypti, (LC50 = 3.174, LC90 = 11.739 mg/L); and Culex quinquefasciatus, (LC50 = 4.112, LC90 = 12.325 mg/L). Smoke toxicities were 82% in Cx. quinquefasciatus, 90% in Ae. aegypti, and 80% mortality in An. stephensi adults, whereas 100% mortality was recorded for commercial mosquito coil. The GC-MS profile of seed essential oil from A. nilotica showed the presence of hexadecane (18.440%) and heptacosane (15.914%), which are the main and active compounds, and which may be involved in insecticidal activity. Overall findings suggest that the seed oil showed strong mosquitocidal activity against mosquito vectors and therefore may provide an ecofriendly replacement to chemical insecticides.

Circadian clock gene is involved in the photoperiodic response of the Spodoptera litura adults

Circadian clocks govern many metabolic and behavioural processes in an organism. In insects, these clocks and their molecular machinery have been found to influence reproduction in many different ways. In moth Spodoptera litura, we demonstrated the occurrence of circadian clock genes in adult’s heads. We identified different clock genes, period (per), cryptochrome1 (cry1) and cryptochrome2 (cry2) in adult heads, using real-time PCR. Our results show that Cry1 gene and Period gene expression level is high at 8:16 photoperiod as compared with other photoperiod. In Cry2, gene expression level is high at 8:16 and 0:24 photoperiod. We show that expression levels of the clock genes per, cry1 and cry2 fluctuate in a circadian manner in adult heads in S. litura. These results strongly suggest that the occurrence of a circadian clock in S. litura heads.

Synergistic effect of entomopathogenic fungus Fusarium oxysporum extract in combination with temephos against three major mosquito vectors

Abstract Mosquito control using chemical insecticides is facing a major challenge due to development of insecticide resistance. Improving the efficiency of existing insecticides using synergistic secondary metabolites of biological origin is increasingly being researched. Herein, we evaluated the toxicity of Fusarium oxysporum extract alone and in binary combinations with temephos, on larvae and pupae of Anopheles stephensi, Aedes aegypti and Culex quinquefaciatus. F. oxysporum extract was characterized using TLC, FT-IR and GC-MS. After 24 h of exposure, the binary combination of temephos + F. oxysporum extract (1:1 ratio) was highly toxic to larvae of An. stephensi (LC50: 35.927 μg/ml), Ae. aegypti (LC50: 20.763 μg/ml) and Cx. quinquefasciatus, (LC50: 51.199 μg/ml). For pupae LC50 values were 38.668, 26.394, and 72.086 μg/ml, respectively. Histology studies of mosquitoes exposed to F. oxysporum extract showed vacuolation in epithelium, as well as in adipose, and muscle tissues of larval midgut. Overall, our results show that the synergistic combination of temephos and F. oxysporum extract is highly effective to control mosquito young instars.

Toxicity of Beauveria bassiana-28 Mycelial Extracts on Larvae of Culex quinquefasciatus Mosquito (Diptera: Culicidae)

Microbial-based pest control is an attractive alternative to chemical insecticides. The present study sought to evaluate the toxicity of the entomopathogenic fungus Beauveria bassiana-28 ethyl acetate extracts on different larval stages and pupae of Culex quinquefasciatus mosquitoes. B. bassiana-28 ethyl acetate mycelial extracts produced mosquitocidal activity against larvae and pupae which was comparable to that of the commercial insecticide B. bassiana-22 extract. The LC50 (lethal concentration that kills 50% of the exposed larvae) values of B. bassiana-28 extracts for 1st to 4th instar larvae and pupae were 11.538, 6.953, 5.841, 3.581 and 9.041 mg/L respectively. Our results show that B. bassiana-28 ethyl acetate mycelial extract has strong insecticidal activity against larval and pupal stages of Cx. quinquefasciatus. Fourier transform infrared spectrum study of B. bassiana-28 extract shows peaks at 3226.91; 2927.94; 1593.13; 1404.18; 1224.18; 1247.94; 1078.21; 1018.41; 229.69; and 871.82 cm−1. Major spectral peaks were observed at 3226.91 cm−1, assigned to N–H stretching, 2927.94 cm−1 assigned to C–H bonding and 1595.13 cm−1 assigned to C–O stretching. Gas Chromatography-Mass Spectrometry studies of B. bassiana-28 ethyl acetate crude extract showed presence of six major compounds viz. N-hexadecanoic acids (13.6040%); Z,Z-9,12 octadecadienic acid (33.74%); 9-eicosyne (10.832%); heptacosane (5.148%); tetrateracontane (5.801%); and 7 hexyleicosane (5.723%). Histology of mosquito midgut tissue shows tissue lysis as a result of B.bassiana-28 extract exposure. The study shows that bioactive molecules obtained from B. bassiana-28 mycelial extract has insecticidal properties and can be used as alternative for mosquito control.

Vector Control in Chikungunya and Other Arboviruses

Mosquito vectors are solely responsible for transmitting diseases, such as malaria, yellow fever, chikungunya, dengue, Japanese encephalitis, lymphatic filariasis and zika virus. Mosquito borne diseases are a leading killer of people and animals in developing coun‐ tries. The resurgence of diseases and the economic impact caused has brought mosquito control to the forefront. There are 3 mosquitos’ genera which are vectors of these diseas‐ es, viz. Anopheles, Aedes and Culex, among these the day biting mosquito Ae. aegypti and Ae. albopictus has become important vectors to two important disease namely Dengue and Zika virus. These diseases have alone been responsible for bringing about morbidity in the large population around the world. Cx. quinquefasciatus is a vector of Chikungunya, which is a viral affection. It’s widely spared distribution across various countries. Malaria caused by An. stephensi and An. arabiensis still affects large population in developing world. For control of emerging and reemerging mosquito borne diseases, a sound inte‐ grated approach towards comprehensive control is the need of hour which could pro‐ duce sustained effect. The reemergence of mosquito borne diseases like Zika, DHF and CHIKV coupled with the problem of insecticide resistance has both posed a danger as well as a challenge towards mosquito control. In future novel technologies especially Wolbachia based mosquito control, pesticide nanoemulsions, identification of novel bio‐ active molecules, and novel bacterial pathogens are the key to success of vector control.