Influence of dietary nutritional composition on caterpillar salivary enzyme activity

Caterpillars are faced with nutritional challenges when feeding on plants. In addition to harmful secondary metabolites and protein- and water-limitations, tissues may be carbohydrate-rich which may attenuate optimal caterpillar performance. Therefore, caterpillars have multiple strategies to cope with surplus carbohydrates. In this study, we raise the possibility of a pre-ingestive mechanism to metabolically deal with excess dietary sugars. Many Noctuid caterpillars secrete the labial salivary enzyme glucose oxidase (GOX), which oxidizes glucose to hydrogen peroxide and gluconate, a nutritionally unavailable carbohydrate to the insect. Beet armyworm, Spodoptera exigua, larvae were restricted to diets varying in protein to digestible carbohydrate (P:C) ratio (42p:21c; 33p:30c; 21p:42c) and total nutrient concentration (42% and 63%). High mortality and longer developmental time were observed when caterpillars were reared on the C-biased, P-poor diet (21p:42c). As the carbohydrate content of the diet increased, caterpillars egested excess glucose and a diet-dependent difference in assimilated carbohydrates and pupal biomass was not observed, even though caterpillars restricted to the C-biased diet (21p:42c) accumulated greater pupal lipid reserves. Larval labial salivary GOX activity was also diet-dependent and gluconate, the product of GOX activity, was detected in the frass. Unexpectedly, GOX activity was strongly and positively correlated with dietary protein content.     

Evidence that caterpillar labial saliva suppresses infectivity of potential bacterial pathogens

Salivary enzyme, glucose oxidase (GOX) from the caterpillar Helicoverpa zea, catalyzes the conversion of glucose to gluconic acid and hydrogen peroxide. Because hydrogen peroxide has well-known antimicrobial properties, we examined whether caterpillar labial saliva could reduce the infectivity of bacterial pathogens. We examined the effects of caterpillar saliva on the growth of two bacteria species Serratia marcescens and Pseudomonas aeruginosa. Wells formed in LB agar contained a solution of salivary gland extract (Sx) and glucose, GOX and glucose, Sx only, GOX only, or glucose only. After 18 h of incubation, the diameter of cleared bacteria was measured. Wells treated with only GOX, Sx, or glucose showed no measurable area of clearing, while wells treated with GOX with glucose or Sx with glucose had considerable clearing. To determine if saliva could provide protection to caterpillars in vivo, a surgery was performed on caterpillars that prevented the secretion of labial saliva. Caterpillars were fed a diet containing either no added bacteria or treated with high levels of S. marcescens or P. aeruginosa. Caterpillars that could not secrete saliva had significantly higher levels of mortality when feeding on diet treated with either bacterium than caterpillars that could secrete saliva when feeding on equal levels of bacteria-treated diet. Our evidence demonstrates for the first time that insect saliva in situ can provide protection against bacterial pathogens and that the salivary enzyme GOX appears to provide the antimicrobial properties.     

Evidence that the caterpillar salivary enzyme glucose oxidase provides herbivore offense in solanaceous plants

The insect salivary enzyme glucose oxidase (GOX) can inhibit wound-inducible nicotine production in tobacco, Nicotiana tabacum. We examined whether salivary gland extracts of Helicoverpa zea lacking active GOX could still suppress nicotine in tobacco, Nicotiana tabacum, and whether GOX could suppress wound-inducible defenses of another Solanaceous plant, tomato Lycopersicon esculentum. Tobacco leaves were wounded with a cork borer and treated with water, salivary gland extracts with active GOX (SxG), or salivary gland extracts with inactive GOX (SxI). After three days, leaves treated with SxG had significantly less nicotine than all other wounded treatments. Neonates that fed on the terminal leaves of tobacco plants treated with SxG had significantly higher survival than neonates that fed on leaves treated with either SxI or water. This evidence supports the assertion that GOX is the salivary factor responsible for the suppression of tobacco plant nicotine production by H. zea saliva. Results for the NahG tobacco plants, which lack salicylic acid (SA) due to a transgene for bacterial SA hydroxylase, indicate that suppression of nicotine by GOX does not require SA. However, tobacco leaves that were wounded and treated with SxG had significantly higher levels of the SA-mediated PR-1a protein than leaves treated with SxI or water. Leaves of tomato plants wounded with scissors and then treated with SxG had trypsin inhibitor levels that were moderately lower than plants wounded and treated with purified GOX, water, or SxI. However, all the wounded tomato leaves irrespective of treatment resulted in lower caterpillar growth rates than the non-wounded tomato leaves. Glucose oxidase is the first insect salivary enzyme shown to suppress wound-inducible herbivore defenses of plants.     

人工饲料与天然饲料饲养条件下烟青虫的生长发育和繁殖力比较

报道饲养烟青虫HelicoverpaassultaGue澖ee的一种人工饲料,比较了烟青虫取食该饲料和天然饲料的主要生物学指标,测定了6龄幼虫对2种食料的转化和利用率。该人工饲料的主要成分是麦胚、黄豆粉、酵母粉和烟叶粉,天然饲料为烟草叶片。结果表明:取食人工饲料的烟青虫幼虫生长发育快,化的蛹较大,成虫寿命长,产卵量大,所产卵孵化率高;取食人工饲料的烟青虫与取食烟草蒴果的相比,前者相对取食量和近似消化率较高,相对生长率无显著性差异。说明烟青虫对该人工饲料有较好的适应性,可以作为繁殖烟青虫的实用饲料。     

Recycling of urea associated with the host plant urease in the silkworm larvae,Bombyx mori

Urea concentration and urease activity in the midgut content were compared between larvae of the silkworm, Bombyx mori fed an artificial diet and those fed fresh mulberry leaves. A considerable amount of urea was found in the midgut content of the both larvae, however it was significantly lower in the larvae fed fresh mulberry leaves than in the larvae fed the artificial diet; average urea concentrations in the midgut content of the larvae fed fresh mulberry leaves and the artificial diet were 2.9 and 4.6 &mgr;mol/g, respectively. Urea in the midgut content seems to be secreted from the insect itself since the amount of urea in both diets were negligibly small. Urease activity was detected only in the midgut content of the larvae fed fresh mulberry leaves but not in other tissues of the larvae. On the other hand, no urease activity was detected in the midgut content of the larvae fed the artificial diet. Subsequently, to elucidate the role of mulberry leaf urease in the midgut lumen, larvae that had been reared on the artificial diet were switched to fresh mulberry leaves. The diet switch caused a rapid decrease in urea concentration in the midgut content and an increase in ammonia concentration in the midgut content, suggesting that secreted urea could be hydrolyzed to ammonia by mulberry leaf urease in the midgut lumen. Furthermore, to investigate the physiological significance of mulberry leaf urease on urea metabolism of the silkworm, (15)N-urea was injected into the hemocoel, and after 12 h the larvae were dissected for (15)N analysis. A considerable amount of (15)N was found to be incorporated into the silk-protein of the larvae fed fresh mulberry leaves, but there was little incorporation of (15)N into the silk-protein of the larvae fed the artificial diet. These data indicate that urea is converted into ammonia by the action of mulberry leaf urease in the midgut lumen and used as a nitrogen source in larvae fed mulberry leaves.     

The effect of plant chemistry on the acceptability of caterpillar prey to the argentine antIridomyrmex humilils (Hymenoptera: Formicidae)

Experiments were performed to test the acceptability of two palatable, cryptic caterpillars, the tobacco hornworm,Manduca sexta, and the cabbage looper,Trichoplusia ni, reared on different diets, to the Argentine ant,Iridomyrmex humilis. Ants preferred larvae reared on artificial diet, groundcherry, or cowpea to tobacco-reared larvae. Ants also preferred larvae reared on artificial diet without nicotine to larvae reared on diet containing nicotine (5% dry wt). Experiments were also performed to test the response of ants to larval extracts and chemicals applied to the surface of palatable prey. Ants did not respond differently to larvae of the potato tuber moth,Phthorimaea operculella, treated with larval extracts or regurgitate from tobacco-reared larvae compared to artificialdiet-reared larvae, but ants were deterred byP. operculella larvae treated with nicotine compared to untreated larvae. The results of this study indicate that caterpillars can derive at least some degree of chemical protection from their food plant without sequestering and storing plant compounds and without the development of elaborate aposematic characteristics.     

Patterns and mechanisms of growth of fifth-instar Manduca sexta caterpillars following exposure to low- or high-protein food during early instars.

For many insect herbivores, variation in protein availability is a pervasive part of the environment. I explore how variable protein availability affects growth rates of fifth-instar Manduca sexta caterpillars and how growth is related to behavior and physiology. Groups of larvae were reared on low- or high-protein artificial diets (5.9% and 17.7% casein by dry weight, respectively) and then transferred in the fifth instar to the same or opposite diet. During or after the 24-h period following transfer, I measured growth rate, consumption rate, growth efficiency, midgut proteolytic activity, and masses of midgut contents and tissues. Fifth-instar caterpillars reared in earlier instars on high-protein diet grew about 20% more rapidly over 24 h than did caterpillars reared on low-protein diet. This growth pattern appears to be caused by differences in consumption and growth efficiency: caterpillars reared on high protein consumed more food, and used it more efficiently, than did caterpillars reared on low-protein diet. Over the short term (24 h), in contrast, fifth instars that received low-protein diet grew as rapidly as caterpillars that received high-protein diet. Increased (compensatory) consumption appears to be the primary mechanism by which caterpillars consuming low-protein food maintained growth rates.     

Digestive proteinases of larvae of the corn earworm, Heliothis zea: characterization, distribution, and dietary relationships.

Proteinases and peptidases from the intestinal tract of fifth-instar larvae of Heliothis (= Helicoverpa) zea (Boddie) (Lepidoptera:Noctuidae) were characterized based on their substrate specificity, tissue of origin, and pH optimum. Activity corresponding to trypsin, chymotrypsin, carboxypeptidases A and B, and leucine aminopeptidase was detected in regurgitated fluids, midgut contents, and midgut wall. High levels of proteinase activity were detected in whole midgut homogenates, with much lower levels being observed in foregut and salivary gland homogenates. In addition, enzyme levels were determined from midgut lumen contents, midgut wall homogenates, and regurgitated fluids. Proteinase activities were highest in the regurgitated fluids and midgut lumen contents, with the exception of leucine aminopeptidase activity, which was found primarily in the midgut wall. Larvae fed their natural diet of soybean leaves had digestive proteinase levels that were similar to those of larvae fed artificial diet. No major differences in midgut proteinase activity were detected between larvae reared under axenic or xenic conditions, indicating that the larvae are capable of digesting proteins in the absence of gut microorganisms. The effect of pH on the activity of each proteinase was studied. The pH optima for the major proteinases were determined to be pH 8.0-8.5 for trypsin, when tosyl-L-arginine methyl ester was used as the substrate; and pH 7.5-8.0 for chymotrypsin, when benzoyl-L-tyrosine ethyl ester was used as the substrate.     

亚洲玉米螟幼虫对氮、糖的吸收和利用

本文以不同含氮和含糖量的系列人工饲料为材料,研究了亚洲玉米螟Ostrinia fur nacalis(Guen6e)幼虫对氮和糖的吸收和利用。结果表明：幼虫对饲料中氮的吸收能力随虫龄增加而下降,对糖的吸收能力则随之而增强;5龄幼虫对糖的吸收能力随所食饲料中氮含量的增加而增强,而对氮的吸收则与饲料糖含量关系不大,5龄幼虫对氮和糖的消耗速率均随饲料含糖量增加而加快,但幼虫的氮利用率和虫体含氮量则随之下降;幼虫的氮消耗速率随饲料含氮量的增加而增加,而氮利用率则下降,5龄幼虫的氮利用率比3龄幼虫的氮利用率低,导致虫体含氮量的迅速下降。这些结果说明饲料中氮含量影响幼虫对糖的吸收,高龄幼虫对糖的需要量增加而对氮的需要则较稳定,饲料中糖比氮更重要。     

Experience-based behavioral and chemosensory changes in the generalist insect herbivore Helicoverpa armigera exposed to two deterrent plant chemicals

Behavioral and electrophysiological responses of larvae of the polyphagous moth species Helicoverpa armigera to two plant-derived allelochemicals were studied, both in larvae that had been reared on a diet devoid of these compounds and in larvae previously exposed to these compounds. In dual-choice cotton leaf disk and pepper fruit disk arena assays, caterpillars reared on a normal artificial diet were strongly deterred by strychnine and strophanthin-K. However, caterpillars reared on an artificial diet containing strychnine were insensitive to strychnine and strophanthin-K. Similarly, caterpillars reared on an artificial diet containing strophanthin-K were also desensitized to both deterrent chemicals. Electrophysiological tests revealed that the deterrent-sensitive neurons in taste sensilla on the maxillae of caterpillars reared on each deterrent-containing diet displayed reduced sensitivity to the two chemicals compared with the caterpillars reared on normal diets. We conclude that the experience-dependent behavioral plasticity was partly based on the reduced sensitivity of taste receptor neurons and that the desensitization of taste receptor neurons contributed to the cross-habituation to the two chemicals.     

The effect of GNA lectin on the α-amylase activity of the beet armyworm,Spodoptera exigua Hb. (Lepidoptera: Noctuidae)

Beet armyworm (Spodoptera exigua Hb.) (Lepidoptera: Noctuidae) is the major pest of sugar beet (Beta vulgaris). Pesticide applications are the main method of the insect control. So, alternative method/s is/are needed to control this insect species. So, in the current study, the effect of Galanthus nivalis agglutinin (GNA) (snowdrop lectin) on beet armyworm α-amylase was studied. Measurement of the amylase activity of the larval midgut fed on artificial diet and sugar beet leaves showed that the enzyme activity was higher when the larvae fed on artificial diet. However, in both cases, the fourth instar larvae had the greatest amylase activity. Thus, fourth instar larvae were offered artificial diet containing 1 and 2% GNA. Both treatments of the lectin significantly reduced the α-amylase activity of the insect. For example, amylase activity of the fourth instar larvae in the control (fed only on artificial diet) was 2.62 Uml^?1 whilst the activity of the enzyme in the two treatments including diet containing 2 and 1% lectin was 1.45 and 1.75 Uml^?1, respectively. The achieved data showed that lectin, in addition to have toxic effect on the larval growth and development, affects the α-amylase activity of the insect gut.     

苜蓿夜蛾葡萄糖氧化酶cDNA的克隆、表达及特性研究

【目的】从苜蓿夜蛾Heliothis viriplaca体内克隆葡萄糖氧化酶(Glucose oxidase,GOX)基因cDNA序列,并进行原核表达及活性测定。同时对GOX在不同组织的特异表达及对葡萄糖诱导反应的特性进行研究。【方法】以苜蓿夜蛾为材料提取总RNA,利用RT-PCR和cDNA末端快速扩增技术,扩增苜蓿夜蛾GOX基因全长cDNA序列。利用原核表达载体p ET-21b在大肠杆菌中表达苜蓿夜蛾的GOX基因,并用Ni-NTA亲和层析柱将带His-tag的目的蛋白进行纯化,再利用梯度透析法进行复性,以葡萄糖为底物进行酶的活性测定。同时利用Real-time PCR分析GOX的组织特异性表达和对葡萄糖的诱导反应。【结果】该cDNA序列有2 154个碱基,开放阅读框1 824个碱基,编码607个氨基酸组成的多肽,分子量为67.04 ku,多肽的等电点为5.13。该序列命名为Hv GOX,在Gen Bank的登录号为KT907054。序列分析表明,Hv GOX的氨基酸序列与其他昆虫的GOX氨基酸序列高度同源。该基因在大肠杆菌表达系统中成功地进行了诱导表达,表达出与预测的蛋白分子量相符的融合蛋白。由原核表达载体表达后的蛋白经过变性、纯化和复性后有活性。Real-time PCR结果表明,该基因在苜蓿夜蛾的不同组织均有m RNA水平的特异表达,其中在唾腺中的表达量最高;同时用0.01%、0.1%、1%和10%葡萄糖溶液浸泡的大豆叶喂食的幼虫,幼虫体内的GOX的表达均被诱导,且在10%的浓度时诱导表达量最高。【结论】本研究在苜蓿夜蛾体内获得一个新的葡萄糖氧化酶基因,该结果为进一步研究葡萄糖氧化酶在昆虫体内的生物功能奠定基础。     

Comparison of the growth and development of beet armyworm,Spodoptera exigua (Hübner) (Lepidoptera: Noctuidae) on two different diets

Beet armyworm (Spodoptera exigua (Hübner)) (Lepidoptera: Noctuidae) is the most economically important sugar beet (Beta vulgaris) pest worldwide. In this study, a comparison was made between two different diets: one was based on Merkx diet (Holidic diet) and the other was based on sugar beet leaf (Oligidic diet). Results showed that the whole development time from larvae to adult between two diets (Merkx and leaf) was not significantly different. For example, developmental time from first instar larvae to adult in Merkx diet was 11.33?days, whilst developmental time of larvae to adult when larvae fed with sugar beet leaf was 10.33?days. However, analysis of variance showed that in some cases like development time of the first instar, third instar and fifth instar larvae and pupae was significantly different between two treatments (p?<?0.05). Larval weight showed differences when larvae fed on Merkx diet and sugar beet leaves. For example, significant differences were shown between first, third and fourth instar larvae weight when larvae fed on Merkx diet and sugar beet leaves (p?<?0.05). However, significant differences were not observed between weight of second and fifth instar as well as pupae weight when larvae fed on Merkx diet and sugar beet leaves (p?>?0.05).     

Effects of light availability on host plant chemistry and the consequences for behavior and growth of an insect herbivore

We examined how light availability influenced the defensive chemistry of tomato (Lycopersicon esculentum: Solanaceae). Tomato plants were grown either in full sunlight or under shade cloth rated at 73%. Leaves from plants grown in full sunlight were tougher, had higher concentrations of allelochemicals (chlorogenic acid, rutin and tomatine), and had less protein than leaves from plants grown in shade. We determined how these differences in host plant quality due to light availability affected the behavior and growth of a Solanaceae specialist, Manduca sexta. Both in the greenhouse and in the field, caterpillars on shade-grown plants grew heavier in a shorter amount of time than those on plants that had previously been grown in full sunlight. In contrast, the effects of previous light availability to plants on caterpillar behavior appeared to be minor.To further investigate how light availability to plants influenced herbivore growth, we examined the effects of leaf-powder diets made from tomato leaves of different ages (new, intermediate, or mature) grown in full sunlight or shade on caterpillar performance. Caterpillars fed diets made from plants grown in shade consumed less but grew faster than larvae fed diets made from tomato plants grown in full sunlight. Caterpillars fed diets made from new leaves grew larger in less time than caterpillars fed diets made from intermediate aged leaves. Caterpillars did not survive on the mature leaf powder diets. There were plant-light treatment by larval thermal regime interactions. For example, at 26:15 °C , plant-light treatment had no effect on stadium duration, but at 21:10 °C, stadium duration was prolonged with the full sunlight-new leaf diet compared with the shaded-new leaf diet. In a second diet experiment, we examined the interactive effects of protein and some tomato allelochemicals (rutin, chlorogenic acid and tomatine) on the performance of caterpillars. There were food quality by thermal regime interactions. For instance, at 26:15 °C , neither protein nor allelochemical concentration influenced stadium duration, whereas at 21:10 °C, stadium duration was prolonged with the low protein-high allelochemical diet, which simulated full sunlight leaves. In sum, light availability to plants affected defensive chemistry and protein concentration. The difference in food quality was great enough to influence the growth of a specialist insect herbivore, but the effects were temperature-dependent.     

Indiscrimination of Manduca sexta larvae to overexpressed and underexpressed levels of phenylalanine ammonia-lyase in tobacco leaves

Manduca sexta (L.) larvae were unable to discriminate between transgenic tobacco leaves expressing high or low levels of phenylalanine ammonia-lyase (PAL) in dual choice arenas. Tobacco leaves overexpressing PAL had up to ten times more chlorogenic acid and up to twice as much rutin in their leaves than leaves containing the same sense-suppressed gene. Caterpillars reared previously on artificial diet or tobacco leaves had no preference for either leaves over- or underexpressing PAL. Application of exogenous chlorogenic acid to PAL-suppressed leaves at levels similar to the overexpressed leaves did not affect M. sexta's choice. When applied at higher rates, treated leaves were preferred by caterpillars reared on tobacco leaves but not by diet-reared larvae. Our results with leaves confirm earlier studies with M. sexta using simpler substrates and mixtures of test compounds and provides further evidence that leaf phenolics, such as chlorogenic acid, do not act as feeding deterrents for larval M. sexta.     

Performance of Lymantria xylina (Lepidoptera: Lymantriidae) on artificial and host plant diets

Lymantria xylina Swinhoe (Lepidoptera: Lymantriidae) is a serious defoliator of hardwood and fruit trees in Taiwan. The larvae of L. xylina feed on >63 species of host plants, belonging to 29 families. Because a large number of larvae are needed for the production of nucleopolyhedrosis virus (NPV) or other related studies, the development of a suitable artificial diet is very important for the mass rearing of this moth in the laboratory. In this study, eight artificial diets, modified from different formulas, and one host plant, Liquidambar formosana Hance, were used to feed L. xylina caterpillars. Through various bioassays (first instar survival trial and long- and short-term feeding trials), the most suitable diet for the L. xylina was selected by performance comparisons with L. formosana. After the first instar survival trial, two of the diets were discarded, because no larva survived on these diets. The results of the long-term feeding trial indicated that the larvae grew successfully on only three kinds of artificial diet. Finally, results of the short-term feeding trial revealed that a diet (diet A), modified from the gypsy moth, Lymantria dispar (L.), formula diet, was the most appropriate for the L. xylina. Larvae fed on diet A had better survival rate, pupal weight, adult size, efficiency of conversion, and relative growth rate than larvae fed on other diets; they did not grow as well as those fed on L. formosana, however, except for pupal and adult weight, and approximate digestibility. In summary, diet A was found to be the best of the artificial diets for the L. xylina and is suitable for mass rearing of this moth in the laboratory.