Detection of alkaloids and carbohydrates by taste receptor cells of the galea of gypsy moth larvae, Lymantria dispar (L.)

Gypsy moth larvae are polyphagous feeders. The electrophysiological responses of the medial and lateral styloconic sensilla to four secondary compounds (e.g., alkaloids), two carbohydrates, and one inorganic salt were examined using an extracellular tip-recording method. In the medial sensillum, one taste receptor cell responded to the alkaloids, strychnine, caffeine, nicotine, and aristolochic acid (i.e., deterrent-sensitive cell), while another, responded to the sugar alcohol and inositol (inositol-sensitive cell). In both medial and lateral sensilla, two taste receptor cells in each sensillum responded minimally and sporadically to 30?mM potassium chloride (KCl) (i.e., KCl-sensitive cells); one cell produced much larger amplitude action potentials than the other. In the medial sensillum, only the large-amplitude KCl-sensitive cell exhibited an increased firing rate with increasing salt concentration. When binary mixture experiments were conducted, it was confirmed that the large-amplitude KCl-sensitive cell and the deterrent-sensitive cell in the medial sensillum were one in the same cell. Only a single cell in the lateral sensillum responded to the sugar, sucrose (sucrose-sensitive cell). The temporal dynamics of responses of the deterrent-sensitive, sucrose-sensitive, and inositol-sensitive cells were compared. Concentration?Cresponse data were obtained for the deterrent-sensitive cell to various alkaloids, as well as to KCl.     

Electrophysiological responses of taste cells to nutrient mixtures in the polyphagous caterpillar of Grammia geneura

In a normally feeding insect, the taste receptors are exposed to complex mixtures of chemicals, not single compounds. We investigate the responses of neurons in the galeal sensilla of the caterpillar of Grammia geneura to mixtures of nutrient compounds at concentrations occurring in plants. Compounds that stimulated the same neuron were generally additive in their effects in binary mixtures. Amino acids that did not stimulate usually had no effect in mixtures with a stimulating compound, but glutamic acid reduced the response to serine in the medial sensillum. Nutrient compounds that stimulated different cells in a sensillum acted independently of each other. Complex mixtures of amino acids resembling samples of free amino acids from three host plants were less stimulating than expected from their molar concentrations. In host plant selection, the response from the medial sensillum is probably dominated by sucrose; unless sucrose levels are low, amino acids will contribute little to sensory input because they stimulate the same cell as sucrose. In the lateral sensillum, amino acids act independently of sugars. The limited contact chemosensory array of caterpillars seems inadequate to allow them to make fine distinctions between plants on the basis of their free amino acids.     

Behavioural and sensory responses to some neem compounds by Pieris brassicae larvae

Abstract. The efficacy of a commercial product (Margosan-O) to inhibit feeding in Pieris brassicae L. (Lepidoptera: Pieridae) larvae was compared to that of three pure triterpenoids of botanical origin: azadirachtin and salannin (occurring in Melia azedurach ), and toosendanin (occurring in M. toosendan ). In dual-choice behaviour tests the order of antifeedant efficacy was: Margosan-O > toosendanin > salannin > azadirachtin. The ranking order of their capacity to stimulate the deterrent receptor located in the medial sensillum styloconicum appears to be: Margosan-O = toosendanin > salannin > azadirachtin. In addition to stimulating the medial deterrent cell, toosendanin inhibits the sugar receptor and the glucosinolate receptor, both located in the lateral sensillum styloconicum. The amino acid receptor in this sensillum, however, is not affected. In contrast, neither azadirachtin nor salannin influences the sensitivity of any of the receptor cells in this sensillum.
The adaptation rate of the deterrent receptor is low in comparison to that of the two sugar receptors.
A significant correlation is found between the antifeedant indices of the four neem compounds tested at three different concentrations, and the responses of the deterrent receptor to these compounds at similar concentrations. It is concluded that when this insect species feeds on its natural foodplant (i.e. cabbage), the deterrent effect of neem compounds is mediated solely via the medial deterrent receptor, whereas inhibitory effects on the sugar and glucosinolate receptors do not play a significant role.     

Multiple mode of action of the feeding deterrent,toosendanin, on the sense of taste in Pieris brassicae larvae

Toosendanin, a tetranortriterpenoid isolated from the bark of Melia toosendan, is a feeding deterrent for larvae of Pieris brassicae. By using electrophysiological techniques, it was found that toosendanin stimulates a deterrent receptor cell located in the medial maxillary sensillum styloconicum. Toosendanin also inhibits responses of both the sugar and glucosinolate receptor cell, which are localized in the lateral sensillum styloconicum. The degree of inhibition of the sugar receptor increases with increasing sucrose concentration. The glucosinolate receptor cell shows a reversed reaction: inhibition by toosendanin decreases with increasing sinigrin concentration. Inhibitory effects occur at a toosendanin concentration as low as 10^–9 M and are dose dependent. The taste neurons that respond to amino acids or deterrents in the lateral sensillum, however, are not affected by toosendanin. It is concluded that the sensory code underlying feeding behaviour is modulated by toosendanin via several different peripheral sensory mechanisms.     

Chemoreception of amino acids by female fourth- and sixth-instar larvae of the spruce budworm

An electrophysiological approach was used to record the responses of maxillary styloconic sensilla of fourth- and sixth-instar larvae of the spruce budworm Choristoneura fumiferana to 14 amino acids. One cell in the lateral styloconic sensillum was identified as an amino acid-sensitive neuron. All of the amino acids tested, except l-proline and l-arginine, were detected by this cell. Arginine did not evoke a response from either the medial or lateral styloconic sensilla. Proline evoked responses from a cell in the medial styloconic sensillum. It is known from previous behavioural work that l-proline is a phagostimulant and l-valine inhibits feeding in Choristoneura; we thus further characterized the responses to these two amino acids. For both instars, l-proline was detected as low as 0.001 mmol/l and the maximal response was at 50 mmol/l. Stimulation of fourth- and sixth-instar larvae with l-valine showed that the maximum firing frequency was obtained at 1 mmol/l. Above and below this concentration, firing frequency decreases. Sensory responses to the amino acids stimuli did not correlate with known behavioral responses to similar stimuli.     

Gustatory perception of phytoecdysteroids in Plodia interpunctella larvae

Phytoecdysteroids are steroidal compounds produced by various plants that disrupt growth and development of insects eating them. They exhibit an insecticidal activity on a number of insect pests such as Plodia interpunctella (Hübner) (Lepidoptera: Pyralidae). In this study, we further evaluated whether phytoecdysteroids deter larvae of this species from feeding, by using four phytoecdysteroid molecules, commonly occurring in plants: 20‐hydroxyecdysone (20E), ponasterone A (PonA), polypodine B (PolB), and makisterone A (MakA). Fourth instar P. interpunctella avoided contact with food pellets treated with these phytoecdysteroids in a dose‐dependent way (2–30 mm ). In order to test whether this avoidance was mediated by taste sensitivity, we recorded the responses of taste neurons located in the lateral and medial sensilla styloconica of the galea. At least one neuron responded to each of these compounds in both sensilla. The neuron located in the medial sensillum had a detection threshold of 10^?6 m for PonA, 10^?4 m for 20E and PolB, and 10^?3 m for MakA. The lateral sensillum neuron responded with less intensity and its detection threshold was 10 times higher than that of the medial sensillum neuron. These results indicate that phytoecdysteroids are detected as deterrent stimuli by P. interpunctella larvae and that small structural differences significantly affect their biological activity.     

Changes in taste receptor cell sensitivity in a polyphagous caterpillar reflect carbohydrate but not protein imbalance

Caterpillars of the polyphagous arctiid, Grammia geneura, have a single cell in the medial galeal sensillum that responds to some sugars and to some amino acids. After conditioning on artificial diet containing unbalanced amounts of carbohydrate and protein, the responses of this cell alter. After protein-biased food it increases slightly, but after carbohydrate-biased food it decreases. Responses to both sucrose and amino acids change in the same direction and the changes would not provide the information necessary to redress a shortage of protein. The lateral galeal sensillum contains one cell that responds to fructose and another responding to some amino acids. The responses of each of these cells in the lateral sensillum are not consistently affected by conditioning diets. After conditioning for 20 h on a protein- or carbohydrate-biased diet, the insects started to feed without delay if offered carbohydrate-biased diet, but only after a pause if given protein-biased diet. This occurred irrespective of the conditioning diet. The duration of the first feeding bout was also longer on carbohydrate-biased diet and the longest bouts followed protein-biased conditioning.     

Chemosensory basis of behavioural plasticity in response to deterrent plant chemicals in the larva of the Small Cabbage White butterfly Pieris rapae

Behavioural and electrophysiological responsiveness to three chemically different secondary plant substances was studied in larvae of Pieris rapae L. (Lepidoptera: Pieridae). Three groups of caterpillars were studied that during their larval development were exposed to different rearing diets: an artificial diet or one of two host-plants, cabbage, Brassica oleracea, or nasturtium, Tropaeolum majus. In dual-choice leaf disc assays, caterpillars reared on cabbage were strongly deterred by the phenolic chlorogenic acid, the flavonol glycoside naringin and the alkaloid strychnine. However, behavioural plasticity was found in caterpillars reared on nasturtium or artificial diet in that these did not discriminate against chlorogenic acid. Caterpillars reared on the artificial diet were also significantly less sensitive to naringin and strychnine in the behavioural assay. Electrophysiological studies of the maxillary sensilla styloconica revealed that the deterrent neuron in the medial sensillum, but not in the lateral sensillum, of cabbage-reared caterpillars was more sensitive than the same neuron type of caterpillars reared on nasturtium or artificial diet. We conclude that (1) the diet-induced behavioural habituation to deterrents can at least partly be explained by chemosensory desensitisation of a generalist type of maxillary deterrent neuron; (2) behavioural cross-habituation to the three structurally diverse deterrent compounds can be traced back to cross-sensitivity for these compounds in the same gustatory neuron.     

Electrophysiological studies of gustation in lepidopterous larvae

Summary The electrophysiological responses of the maxillary gustatory sensilla of ten species of lepidopterous larvae to sugars, polyhydric alcohols, amino acids, organic acids, glycosides, and sterols were tested. Of the caterpillars examined three were monophagous (Calpodes ethlius, Ceratomia catalpae, Danaus plexippus), three were oligophagous (Pieris rapae, Papilio polyxenes, Malacosoma americana), and four were polyphagous (Helioihis zea, Estigmene acrea, Isia isabella, Porthetria dispar). The sensilla of all species are structurally similar to the extent of having four chemosensory bipolar neurons in each peg.It is not possible to account for the wide range of responsiveness to diverse compounds in terms of narrowly specific receptors characterized as water, sugar, salt, inositol, or amino acid receptors. Bach receptive cell was found to have only a limited degree of specificity. Not all amino acids stimulated the same cell. Some amino acids stimulated only one; some stimulated two; some inhibited all cells; some inhibited one while stimulating another. Differential sensitivity to amino acids varied from species to species and even between the two sensilla in an individual.The diversity of relationships found with amino acids existed also with respect to acids and glycosides. Ascorbic and hydrochloric acids at equivalent pH values each stimulated a different cell. Glycosides stimulated one or two cells depending on the species and sensillum.Synergism occurred nearly as often as inhibition. Among the instances were synergistic reactions between sucrose and inositol, proline and inositol, sucrose and sinigrin, glycine and sucrose. The occurrence of the phenomenon was specific to certain species and sensilla.Results point to the conclusion that the basis of difference in sensitivity to different compounds from species to species and from receptor to receptor reflects variations in the molecular structure of the receptor substrate. Whatever the mechanisms involved it is clear that caterpillars are able to detect not only compounds that may be of nutritive value but also non-nutritive compounds some of which are secondary plant substances. When the total taste sensitivities of the various species of caterpillars are compared, there is no obvious difference between polyphagous, oligophagous, and monophagous species.This work was supported by National Science Foundation Grant GB 1472.     

Behavioural and sensory responses to drimane antifeedants in Pieris brassicae larvae

Fifteen drimane compounds were tested for their feeding inhibiting activity in larvae of Pieris brassicae L. (Lepidoptera: Pieridae) when applied to leaf material of the host plant Brassica oleracea L. The antifeedant efficacy of the drimanes was related to their molecular structure in order to identify important functional groups. Of the drimanes tested, those with a lactone group on the B-ring were the most effective feeding inhibitors. Additionally, the sensory responses to 13 of the drimanes were measured. Neural activity was evoked in the deterrent cell in the medial sensillum styloconicum. Also, inhibition of sensory responses to feeding stimulants was found. Results of behavioural and electrophysiological tests were correlated in an attempt to elucidate the sensory code underlying feeding inhibition by drimanes in Pieris brassicae. It was concluded that the response of the deterrent cell in the medial sensillum styloconicum contributes significantly to inhibition of feeding behaviour in larvae of Pieris brassicae.     

An electrophysiological analysis of the effect of phagostimulant mixtures on the responses of a deterrent-sensitive cell of gypsy moth larvae, Lymantria dispar (L.)

Gypsy moth larvae, Lymantria dispar (L.), are polyphagous feeders. The medial styloconic sensillum of this species bears a taste receptor cell that responds to alkaloids and another that responds to the sugar alcohol, inositol. The lateral styloconic sensillum bears a taste receptor cell that is sensitive to the sugar, sucrose. We tested the effect of two phagostimulants, namely sucrose and inositol, on the response of the deterrent-sensitive cell and found that both phagostimulants suppressed its response, equally, while their combination was significantly more effective. We also tested the effect of two alkaloids (i.e., strychnine and caffeine), which deter feeding in this species, on the response of the inositol- and sucrose-sensitive cells. Although both of these deterrents had no effect in suppressing the response of the sucrose-sensitive cell, they both had an effect in suppressing the inositol-sensitive cell. We also found that sucrose suppressed the response of the inositol-sensitive cell, whereas inositol had no significant effect on the response of the sucrose-sensitive cell. In this paper, we examined the effect of mixtures of these compounds to determine the nature of their interaction. In the context of host–plant interactions and, for example, host recognition, whereby host plant acceptability depends on the total sensory impression acquired from responses to multiple plant components rather than the presence or absence of single stimulant or deterrent compounds, this study could have a direct bearing in the development of natural compounds (i.e., alkaloids) for pest control and crop protection. It will also contribute to our understanding of the neural basis of the feeding behavior of this insect.     

Morphological and electrophysiological characteristics of the epipharyngeal sensilla of the silkworm, Bombyx mori

One pair of gustatory sensilla was found on the epipharynx ofBombyx mori larvae, and some morphological and electrophysiological characteristics of the epipharyngeal sensilla were investigated. They are sensilla coeloconica composed of a small papilla with a pore at the tip and a swelling of cuticle encircling the papilla. Three bipolar neurons innervate each sensillum. One neuron is an inositol receptor which responds to inositol only. Another cell responds with action potentials of relatively large amplitude to some feeding deterrent substances, such as strychnine nitrate. The thresholds of these cells for inositol and strychnine nitrate are approximately 10⁻⁴ M and 10⁻⁷ M, respectively. At least two kinds of spikes can be observed when these sensilla are stimulated with some salts and acids. Dose-response relationships and time courses of responses to inositol and strychnine nitrate were also examined in this study.     

Chemoreception of amino acids in larvae of two species of Pieris

ABSTRACT. Specificity and sensitivity of gustatory neurones in response to twenty-two amino acids were studied in larvae of Pieris brassicae L. and Pieris rapae L. (Lepidoptera: Pieridae) using electrophysiological methods. Twelve amino acids stimulated a specific amino acid receptor cell in the lateral styloconic sensillum on the maxillary galea of both species, and a further two evoked single unit responses in the same sensillum of P.brassicae only. Histidine, phenylalanine and tryptophane were the weakest stimulants for P.brassicae , but were among the four best stimulants for P.rapae . In both species, eight amino acids were ineffective. Significant differences in stimulatory effectiveness were found between amino acids. Nutritionally essential amino acids were more effective in both species, as in five other lepidopterous species. Similarities with postulated sites for amino acid recognition in the dipteran Boettcherisca peregrina were found.
Concentration-response (C/R) relations were studied for five amino acids. Significant differences were found in saturated response levels. Parameters characterizing C/R relations were estimated using a logistic model. Comparing C/R parameters with phytochemical data on concentrations of free amino acids in a common host plant, Brassica oleracea L., shows that amino acids are effective stimuli at their natural concentrations. The amino acid chemoreceptor seems able to transmit information about concentration differences of amino acids in the plant tissue.     

草地贪夜蛾幼虫对四种刺激物质的味觉感受和取食选择

【目的】为了筛选有效的草地贪夜蛾Spodoptera frugiperda幼虫取食激食素和抑制剂并探究其味觉感受机理,为生态防治草地贪夜蛾提供理论和实践上的依据。【方法】利用单感受器记录法测定草地贪夜蛾5龄第2天幼虫下颚外颚叶上中栓锥感器和侧栓锥感器对不同浓度的蔗糖、黑芥子苷、单宁酸和盐酸奎宁4种刺激物质的电生理反应,并采用二项叶碟法测定草地贪夜蛾幼虫对这些刺激物质的取食选择行为。【结果】草地贪夜蛾幼虫中栓锥感器和侧栓锥感器内均存在对蔗糖、黑芥子苷和单宁酸敏感的味觉受体神经元,但是神经元的活性随着刺激物的种类及浓度而变化。其中,两类感器内神经元对蔗糖和黑芥子苷的反应均呈现典型的浓度梯度反应。中栓锥感器内存在对盐酸奎宁敏感的味觉受体神经元,但是呈现逆浓度梯度的反应模式,侧栓锥感器内不存在对盐酸奎宁敏感的神经元。蔗糖显著诱导幼虫的取食行为,而盐酸奎宁、黑芥子苷和单宁酸均抑制幼虫的取食行为,且都呈现浓度梯度的抑制活性。【结论】草地贪夜蛾幼虫中栓锥感器和侧栓锥感器内均存在对取食激食素和抑制剂敏感的味觉受体神经元,但是两类感器不论在反应谱上还是敏感性上均存在差异。蔗糖可以作为取食激食素,盐酸奎宁、黑芥子苷和单宁酸可以作为取食抑制剂的有效候选物质。幼虫对蔗糖、黑芥子苷和单宁酸的味觉反应在一定程度上解释了其取食选择行为的味觉基础。本研究为草地贪夜蛾的生态防治提供了味觉信息。     

Deficiency of gustatory sensitivity to some deterrent compounds in "polyphagous" mutant strains of the silkworm, Bombyx mori

Sawa-J, CSJ02 and N601 x C601 are selected mutant strains of Bombyx mori, which grow on various artificial diets or temporarily ingest various plant leaves. To examine the mechanisms mediating diet breadth of caterpillars, gustatory spike responses of the silkworms, called 'polyphagous" strains, were compared with normal strains, N137 x C146 and C02. There were notable differences in their feeding habits and in their sensitivity to salicin in deterrent cells in the maxillary medial styloconic sensilla and the epipharyngeal sensilla. By contrast, the deterrent cells of all strains responded similarly to strychnine nitrate in a dose-dependent manner. In additional comparisons of Sawa-J and N137 x C146, Sawa-J maxillary deterrent cells were significantly less sensitive to phloridzin, amygdalin and arbutin, but responded to some alkaloids and 20-hydroxyecdysone with similar or even higher firing rate. These results suggest that the deficiency of the sensitivity to some deterrent compounds on the deterrent cell of the polyphagous strains may be caused by mutant genes and affects the diet breadth of caterpillars.     

Sensitivity to chemically diverse phagostimulants in a single gustatory neuron of a polyphagous caterpillar

Caterpillars of the arctiid moth, Grammia geneura, are polyphagous, but species of Plantago are amongst their preferred food plants. A neuron in the medial styloconic sensillum on the galea has been shown to have a general phagostimulatory function. Experiments with binary mixtures and cross-adaptation have demonstrated that it responds to some sugars, to several amino acids, and also to catalpol. Catalpol is a plant secondary compound in Plantago and a phagostimulant for the caterpillars. The possible significance of combining sensitivity to nutrient compounds with sensitivity to a secondary compound is discussed. Accepted: 7 October 1999     

Nutritional studies on Acanthamoeba culbertsoni and development of chemically defined medium

A chemically defined medium containing 11 amino acids, 3 vitamins, 6 inorganic salts and glucose, yielding maximum cell densities of 1.5-2.5 x 10(7) cells/ml, has been developed for Acanthamoeba culbertsoni with a mean generation time (MGT) of 10 h. A medium containing six amino acids viz. arginine, methionine, leucine, isoleucine, valine and glycine along with other components could also support good albeit slower growth (MGT 27 h) of the amoeba. Acetate did not serve as a suitable carbon/energy source for A. culbertsoni. This organism bears close resemblance in its nutritional requirements to other Acanthamoeba especially A. polyphaga.     

Continuous single sensillum recording as a detection method for moth pheromone components in the effluent of a gas chromatograph

ABSTRACT. Single sensillum recordings were made from male antennal pheromone receptors of Agrotis segetum (Schiff.) (Noctuidae) and Adoxophyes orana (F.v.R.) (Tortricidae). A gas chromatograph (GC) was used to prepare and to deliver the odour stimuli. Samples of female abdominal gland extracts were injected into the column of the GC and the responses of the receptor cells to the effluent were recorded continuously. The receptor cells responded with an increase of their action potential frequency during elution of the major pheromone components. The pheromone receptors of Agrotis showed a much higher sensitivity than those of Adoxophyes. In the extract of female glands from Agrotis , compounds were detected which have not been identified in previous studies of the sex pheromone of this species. It is suggested that the combination of GC techniques with direct single sensillum recording may serve as a valuable supplement to electro-antennographic techniques.     

Gustatory discrimination of sugars, amino acids, and selected allelochemicals by the tarnished plant bug, Lygus lineolaris

ABSTRACT. Selected sugars, amino acids and allelochemicals were tested over a range of concentrations to determine their effect on the ingestion rates of adult tarnished plant bugs. Experiments were performed with a two-choice bioassay technique utilizing artificial membranes. Sucrose was the most effective feeding stimulant of all the compounds tested. Glucose was an effective stimulant but was 8 times less potent than sucrose. Fructose was 50 times less potent than sucrose. Methionine and phenylalanine were the only amino acids of seven tested which stimulated feeding. Leucine produced a deterrent effect. Cotton tannin was the most effective deterrent of all allelochemicals tested and was 10 times more potent than gossypol. The quinone, 1, 4-napthoquinone, and the alkaloid, tomatine, were also effective feeding deterrents. Sinigrin and its aglycone, ethyl isothiocyanate, were among the weakest deterrents of all the allelochemicals tested. Hydroquinone was the least potent deterrent of all compounds tested. The results indicate a strong chemosensory component regulating the feeding response of the tarnished plant bug. It is suggested that this response is mediated by epipharyngeal chemosensitive sensilla.     

Carbohydrate Effects on Amino Acid Transport by Trypanosoma equiperdum*

SYNOPSIS. Uptake of ¹⁴C-labeled alanine, glutamate, lysine, methionine, proline, and phenylalanine by Trypanosoma equiperdum during 2-minute incubations occurred by diffusion and membrane-mediated processes. Amino acid metabolism was not detected by paper chromatography of trypanosome extracts. Most of 18 carbohydrates tested for ability to alter amino acid transport neither changed nor significantly inhibited transport. Glucose, however, stimulated glutamate, lysine and proline transport; fructose stimulated lysine uptake and 2-deoxy-D-glucose increased phenylalanine and methionine absorption. No evidence was found that the carbohydrates acted by binding to amino acid transport “sites.” Glucose inhibition of alanine, phenylalanine, and methionine uptake was linked to glycolysis. The rapid formation of alanine from glucose stimulated alanine release and, when glycolysis was blocked, glucose no longer inhibited alanine transport. Methionine and phenylalanine release was also stimulated by glucose. Glucose changed the ability of lysine, glutamate, and proline to inhibit each others’uptake, indicating that certain amino acids are preferentially absorbed by respiring cells. Analysis of free pool amino acid levels suggested that some amino acid transport systems in T. equiperdum are linked in such a way to glycolysis as to control the cell concentrations of these amino acids.