Characterization of a Chitin Synthase Encoding Gene and Effect of Diflubenzuron in Soybean Aphid, Aphis Glycines

Chitin synthases are critical enzymes for synthesis of chitin and thus for subsequent growth and development in insects. We identified the cDNA of chitin synthase gene (CHS) in Aphis glycines, the soybean aphid, which is a serious pest of soybean. The full-length cDNA of CHS in A. glycines (AyCHS) was 5802 bp long with an open reading frame of 4704 bp that encoded for a 1567 amino acid residues protein. The predicted AyCHS protein had a molecular mass of 180.05 kDa and its amino acid sequence contained all the signature motifs (EDR, QRRRW and TWGTR) of chitin synthases. The quantitative real-time PCR (qPCR) analysis revealed that AyCHS was expressed in all major tissues (gut, fat body and integument); however, it had the highest expression in integument (~3.5 fold compared to gut). Interestingly, the expression of AyCHS in developing embryos was nearly 7 fold higher compared to adult integument, which probably is a reflection of embryonic molts in hemimetabolus insects. Expression analysis in different developmental stages of A. glycines revealed a consistent AyCHS expression in all stages. Further, through leaf dip bioassay, we tested the effect of diflubenzuron (DFB, Dimilin ®), a chitin-synthesis inhibitor, on A. glycines'' survival, fecundity and body weight. When fed with soybean leaves previously dipped in 50 ppm DFB solution, A. glycines nymphs suffered significantly higher mortality compared to control. A. glycines nymphs feeding on diflubenzuron treated leaves showed a slightly enhanced expression (1.67 fold) of AyCHS compared to nymphs on untreated leaves. We discussed the potential applications of the current study to develop novel management strategies using chitin-synthesis inhibitors and using RNAi by knocking down AyCHS expression.     

Diflubenzuron affects gamma-thioGTP stimulated Ca transport in vitro in intracellular vesicles from the integument of the newly molted american cockroach, Periplanet americana L.

To study the mechanism of action of diflubenzuron (DFB) and other benzoylphenylureas, we have initially hypothesized that their action may be related to exocytosis: to test the hypothesis, we obtained an intracellular vesicle preparation from the homogenate of integument of newly molted American cockroachs (Periplaneta americana L.) in 10 mM MES buffer containing 250 mM sucrose (isotonic) and 2.5 mM MgSO₄, at pH 6.6. By studying DFB's effect on various ion transporting activities, we demonstrated that calcium uptake in this intracellular particulate preparation was significantly inhibited by DFB at low concentrations (e.g., 10⁻⁸ M). Such an inhibitory effect of DFB on Ca²⁺ uptake was eliminated by the addition of ionophores or membrane disruptors, as well as the sonication of vesicle preparation. On the other hand, oligomycin, protein phosphorylation modulators, Na⁺, and Li⁺ did not affect the calcium uptake. Among ionophores, agents disrupting H⁺ gradients (e.g. FCCP and NEM) totally eliminated ⁴⁵Ca uptaking activity by vesicles as well as the inhibitory effect of DFB. Among calcium ion modulators, calmodulin inhibitors such as calmidazolium and trifluoperazine decreased the Ca²⁺-uptake, whereas membrane calcium channel blocker, verapamil, did not. ATP and γ-S-GTP stimulated Ca²⁺ uptake. However, the former increased only the DFB insensitive portion and the latter largely the DFB sensitive part of Ca²⁺. Together these data support the hypothesis that the action site of DFB in this preparation is the GTP-dependent Ca²⁺ transport process which is coupled to vacuolar type intracellular vesicles in the integument cells.     

Synergistic effect of entomogenous fungi on some insecticides against Bihar hairy caterpillar Spilarctia obliqua (Lepidoptera: Arctiidae)

A number of fungal parasites infect a wide range of insects and cause epizootics from time to time. Beauveria bassiana (Balsamo) Vuillemin and Metarhizium anisopliae (Metschnikoff) Sorokin are two of the major disease-causing fungi in insects. Investigations were carried out to study the effect of these fungi on the toxicity of endosulfan, imidacloprid, lufenuron, diflubenzuron, dimethoate and oxydemeton methyl against 10-11 days old larvae of Spilarctia obliqua (Walker). For some products the combination treatments showed higher dose mortality response than the sole treatment of fungal conidia or the insecticide. The combination of insecticides with B. bassiana showed 1.26-35.8 fold increase in toxicity of insecticides over sole treatment, while the increase was 1.05-72.0 fold in case of M. anisopliae. Imidacloprid 17.8 SL and oxydemeton methyl 25EC may be used in combination with these fungi for management of S. obliqua.     

Effects of Diflubenzuron on the Development of Bombyx mori (Lepidoptera: Bombycidae)

ABSTRACT This study was conducted to determine the effects of diflubenzuron (DFB) on the growth and development of the silkworm, Bombyx mori (L.). The DFB treatment extended abnormally the larval duration and affected negatively on larval spinning of the 5th instar. All the larvae treated with high DFB concentration (2.5 × 10^-1 and 2.5x 10^-1μg/μl) lost their spinning capability and finally died, whereas 62% of larvae treated with low DFB concentration (2.5 × 10^-1μg/μl)) spinned cocoon. The larval weights depended sensitively on the DFB treatment period rather than on the DFB concentration. The DFB treatment decreased the larval maturity less than 6% without regard to the concentration and treatment period. All the larva, when treated with DFB before the 5th days of the 5th instar, were not matured.     

Chitin is a necessary component to maintain the barrier function of the peritrophic matrix in the insect midgut

In most insects, the peritrophic matrix (PM) partitions the midgut into different digestive compartments, and functions as a protective barrier against abrasive particles and microbial infections. In a previous study we demonstrated that certain PM proteins are essential in maintaining the PM's barrier function and establishing a gradient of PM permeability from the anterior to the posterior part of the midgut which facilitates digestion (Agrawal et al., 2014). In this study, we focused on the effects of a reduction in chitin content on PM permeability in larvae of the red flour beetle, Tribolium castaneum. Oral administration of the chitin synthesis inhibitor diflubenzuron (DFB) only partially reduced chitin content of the larval PM even at high concentrations. We observed no nutritional effects, as larval growth was unaffected and neutral lipids were not depleted from the fat body. However, the metamorphic molt was disrupted and the insects died at the pharate pupal stage, presumably due to DFB's effect on cuticle formation. RNAi to knock-down expression of the gene encoding chitin synthase 2 in T. castaneum (TcCHS-2) caused a complete loss of chitin in the PM. Larval growth was significantly reduced, and the fat body was depleted of neutral lipids. In situ PM permeability assays monitoring the distribution of FITC dextrans after DFB exposure or RNAi for TcCHS-2 revealed that PM permeability was increased in both cases. RNAi for TcCHS-2, however, led to a higher permeation of the PM by FITC dextrans than DFB treatment even at high doses. Similar effects were observed when the chitin content was reduced by feeding DFB to adult yellow fever mosquitos, Aedes aegypti. We demonstrate that the presence of chitin is necessary for maintaining the PM's barrier function in insects. It seems that the insecticidal effects of DFB are mediated by the disruption of cuticle synthesis during the metamorphic molt rather than by interfering with larval nutrition. However, as DFB clearly affects PM permeability, it may be suitable to increase the efficiency of pesticides targeting the midgut.     

Possible physiological mechanisms for the differential susceptibility of two forest Lepidoptera to diflubenzuron

In an attempt to explain the physiological mechanisms for the differential susceptibility of insects to the chitin synthesis inhibitor, diflubenzuron, chitin content, chitin synthesis, and retention of ingested ¹⁴C-diflubenzuron in two forest Lepidoptera were investigated. The spruce budworm, Choristoneura fumiferana, a refractory species, had less chitin and retained less of the ingested material than the forest tent caterpillar, Malacosoma disstria, a species highly sensitive to diflubenzuron. No difference in the chitin synthesis pattern during the 6th stadium was observed in the two species. It is concluded that the primary reasons for the increased susceptibility of the forest tent caterpillar to this compound was the increased retention of ingested diflubenzuron and, to a lesser extent, the increased chitin content.