Feeding state influences the content of FMRFamide- and tachykinin-related peptides in endocrine-like cells of the midgut of Locusta migratoria

The midgut of 5th instar male African migratory locust, Locusta migratoria, was found to contain endocrine-like cells that stained positively for FMRFamide-like immunoreactivity. These cells have cell bodies which are tear-drop in shape with processes extending from the cell body. FMRFamide-like immunoreactivity has been described in similar cells in adult midgut tissue [16]. The midgut tissue content of FMRFamide-like immunoreactivity is differentially distributed throughout various regions of the midgut (gastric cecae, anterior and posterior midgut) in 5th instar and varied ages of adult. FMRFamide-like immunoreactivity in midgut tissues decreases significantly by 24 h of starvation, whereas locustatachykinin I-like immunoreactivity does not decrease until 48 h of starvation indicating that there are differential timing effects of these two peptide families on midgut content. HPLC analysis, combined with RIA, of different regions of the midgut tissue from both fed and starved locusts revealed that the relative proportions of the members of the two peptide families vary depending upon the feeding state. These results indicate that the contents of these endocrine-like cells appears to be differentially influenced by the feeding state of the locust.     

Invasion of the pathogenic fungus Metarhizium anisopliae through the guts of germfree desert locusts,Schistocerca gregaria

Less than 1% of an ingested inoculum of the pathogenic fungus Metarhizium anisopliae was retained for long enough (ca. 24 h) in the gut of the desert locust, Schistocerca gregaria, for germination and penetration to have occurred. The residual inoculum did not initiate an infection in guts of fed conventional or axenic locusts. However, symptoms of mycosis (hyphal bodies in the haemolymph, fungal penetration of the hindgut intima and epithelium, tetanic paralysis) were consistently observed in axenic but not conventional locusts which were starved post-inoculation.It is concluded that the antifungal toxin produced by the gut bacteria defends the desert locust against gut invasion by Metarhizium anisopliae during periods of starvation when the physical defences, prominent in fed insects, are less apparent.     

Signal transduction for Schistocerca gregaria ion transport peptide is mediated via both cyclic AMP and cyclic GMP

The second messengers involved in the signal transduction for Schistocerca gregaria, ion transport peptide (Schgr-ITP) that regulates ion and fluid transport across the ileum of the desert locust S. gregaria, were measured using competitive enzyme-linked immunosorbent assays (ELISAs). Synthetic Schgr-ITP elevates intracellular levels of both cyclic AMP and cyclic GMP, measured over a 15 min period in the presence of 3-isobutyl-1-methylxanthine, in a dose-dependent manner. Furthermore, crude corpora cardiaca (CC) extracts elevate intracellular cyclic AMP levels 2-fold greater than Schgr-ITP, suggesting that factors present in the CC, other than Schgr-ITP, also act via this second messenger. These results suggest that the interaction of Schgr-ITP with two separate receptors, most likely a G-protein coupled receptor and a membrane bound guanylate cyclase, elevates intracellular levels of cyclic AMP and cyclic GMP to regulate ion and fluid transport across the locust ileum. Cyclic AMP stimulates Cl⁻, K⁺ and Na⁺ reabsorption, whereas secretion of H⁺ into the lumen of the ileum is most likely mediated via cyclic GMP. Cyclic GMP also stimulates Cl⁻ uptake in a similar manner to cyclic AMP. The measurement of tissue (central nervous system) levels of Schgr-ITP using an indirect ELISA confirms that the peptide is only present in the locust brain and the CC. The amounts present are greatest in the CC, where the peptide is presumably stored for release into the hemolymph when locusts feed.     

Diversity of gut microbiota increases with aging and starvation in the desert locust

Here we report the effects of starvation and insect age on the diversity of gut microbiota of adult desert locusts, Schistocerca gregaria, using denaturing gradient gel electrophoretic (DGGE) analysis of bacterial 16S rRNA genes. Sequencing of excised DGGE bands revealed the presence of only one potentially novel uncultured member of the Gammaproteobacteria in the guts of fed, starved, young or old locusts. Most of the 16S rRNA gene sequences were closely related to known cultured bacterial species. DGGE profiles suggested that bacterial diversity increased with insect age and did not provide evidence for a characteristic locust gut bacterial community. Starved insects are often more prone to disease, probably because they compromise on immune defence. However, the increased diversity of Gammaproteobacteria in starved locusts shown here may improve defence against enteric threats because of the role of gut bacteria in colonization resistance.     

Trehalose and trehalose-hydrolyzing enzyme in the haemolymph of Locusta migratoria infected with Metarhizium anisopliae strain CQMa102

Topical application of the Metarhizium anisopliae var. acridum specialist strain CQMa 102 to the locust Locusta migratoria manilensis results in changes of the concentrations of trehalose and glucose in the haemolymph. Micrographs of the locust haemolymph shows Metarhizium anisopliae can effectivly penetrate the external skeleton of locust and after 2 days infection, the hyphae body will appear in the haemolymph of infected insects. The time in decrease of trehalose concentration coincided with that in increase of trehalose-hydrolysing enzyme activity in the haemolymph of the fungus-infected insects. Overlay gel analysis indicated there was considerably more trehalose-hydrolysing activity in the haemolymph of locusts infected by fungus than in controls. A comparable isoform was identified in in vitro culture of the fungus, suggesting a fungal origin for the in vivo enzyme. Haemolymph trehalose decreased significantly during mycosis of locusts by M. anisopliae. All these results suggested that this fungus may take advantage of competing nutrient utilization against the insect by its trehalose-hydrolyzing enzyme secretion. It may provide fundamental knowledge for fungal pathogenesis.     

Interrelationships between haemolymph lipid and carbohydrate during starvation in Locusta

During starvation in adult female Locusta, the haemolymph total lipid concentration increases markedly while that of the total carbohydrate decreases. The majority of the increased haemolymph lipid is diglyceride and 75% of this is associated with a high molecular weight lipoprotein (A⁺) which disappears rapidly after feeding when the total lipid concentration is restored to the normal resting value. The effect of feeding can be mimicked by injecting or feeding starved locusts with sugars but not with protein. The lowering of the haemolymph total diglyceride concentration in starved locusts by injection of carbohydrates is dose-related and, at doses in excess of 4 mg per locust, almost normal values (for fed locusts) are obtained within 6 hr. It is suggested that in the haemolymph there is an inverse relationship between the concentration of diglyceride and that of trehalose.     

Factors affecting concentrations of acetoacetate and d-3-hydroxybutyrate in haemolymph and tissues of the adult desert locust

The ketone bodies acetoacetate and d-3-hydroxybutyrate are found in the haemolymph, the fat body, and the flight muscles of the adult desert locust. Acetoacetate is the major ketone body in the haemolymph and the flight muscles, but in the fat body d-3-hydroxybutyrate usually predominates. The concentration of acetoacetate in the haemolymph varies with age, and increases during starvation and flight and also after the injection of corpus cardiacum homogenate; it is little affected by stress and there are no differences between the sexes. Ketone bodies appear to be formed in the fat body and are oxidized by the fat body, the flight muscles, and the testes. All the tissues oxidize acetoacetate much more readily than d-3-hydroxybutyrate, and the flight muscles of fed locusts oxidize acetoacetate much more readily than the fat body or the testes. In starved locusts the ability of the fat body and the flight muscles to oxidize ketone bodies is greatly reduced, but utilization by the testes remains normal. Thus the flight muscles appear to be the major consumers of ketone bodies in fed locusts, and the testes the major consumers in starved locusts. It is suggested that ketone bodies are formed in the fat body during the mobilization of the triglyceride lipid reserves, and are either oxidized by the fat body or transported by the haemolymph to the flight muscles and other tissues to be used as a respiratory fuel.     

Haemolymph amino acid and sugar levels in locusts fed nutritionally unbalanced diets

Aspects of pre- and post-ingestive compensation were investigated in locusts (Locusta migratoria) fed nutritionally unbalanced artificial diets containing 7% protein and 21% digestible carbohydrate (7:21) or 21% protein and 7% digestible carbohydrate (21:7). Feeding behaviour and haemolymph levels of amino acids and sugars were measured in locusts fed ad libitum on these diets. Locusts fed the high-protein diet had chronically elevated haemolymph levels of 15 out of 19 amino acids measured compared to locusts fed the low protein diet. However, haemolymph levels of lysine, alanine, aspartic acid and glutamic acid did not differ between diets, suggesting some specific regulatory mechanism for these amino acids. Haemolymph glucose and trehalose reflected levels of carbohydrate in the diets, being high in insects fed diet 7:21 relative to those given diet 21:7. These data are discussed in relation to the physiological and behavioural bases of nutritional homeostasis.Abbreviations AA amino acid(s) - PRO protein - CHO carbohydrate - PBS phosphate-buffered saline - MW molecular weight     

Feeding causes the appearance of a factor in the haemolymph that stimulates protein synthesis

Soon after a locust (Locusta migratoria) begins to feed, an increase in protein synthesis can be detected in the animal. Isolation of fat body shows that this tissue synthesizes protein at a faster rate in recently fed animals than it does in fasting insects. Fasting locusts injected with haemolymph from fed insects increased protein synthesis when compared with locusts injected with haemolymph from fasting locusts. The factor causing this increase was present in the haemolymph within 5 min of feeding. Feeding or direct contact with the food was not essential to increase protein synthesis. Exposure of fasting locusts to feeding insects was sufficient to elevate the rates of protein synthesis in the fasting animals.The increase inprotein synthesis was not a result of general excitation or an increase in the concentration of tryptophan or isoleucine in the haemolymph. Ecdysteroid titres were uniformly low during the first ten days of adult life. Gel filtration of the fed haemolymph revealed a low molecular weight fraction (about 600 daltons) which stimulated protein synthesis upon injection into fasting locusts.     

Analysis of an insect neuropeptide, Schistocerca gregaria ion transport peptide (ITP), expressed in insect cell systems

We have produced an active form of Schistocerca gregaria ion transport peptide (ITP) in an insect cell expression system. Transformed Drosophila Kc1 cells secreted a form of ITP into the cell culture medium that was proteolytically cleaved correctly at the amino (N)-terminus. Concentrated culture supernatant from transformed Kc1 and Hi5 cells had high biological activity when tested on isolated locust ilea. Conversely, ITP expressed by baculovirus-infected Sf9 cells was larger in size and had decreased specific activity compared to ITP produced by Kc1 cells due to incorrect cleavage of the peptide at the N-terminus in the baculovirus system. This demonstrates how processing of the secreted foreign protein (ITP) expressed under the late polyhedrin promoter is compromised in a baculovirus-infected cell. Transient transformation of Kc1 cells results in supernatants containing two forms of ITP; one form (A) co-elutes with synthetic ITP and the other form (B) has reduced electrophoretic mobility. In contrast, in stably transformed Kc1 cell supernatant, ITP is expressed in a single form, which has the same electrophoretic mobility and specific biological activity as form A produced by transiently transformed Kc1 cells. Arch.     

Locustakinin, a novel myotropic peptide from Locusta migratoria, isolation, primary structure and synthesis.

The isolated hindgut of the cockroach, Leucophaea maderae is a very efficient bioassay tool for the monitoring of certain structural types of insect myotropic peptides during HPLC purification. Using this detection system, a six residue peptide has been isolated from an extract of 9000 brain corpora cardiaca-corpora allata suboesophageal ganglion complexes of Locusta migratoria. Amino acid composition and sequence analysis combined with enzymatic digestion data established the structure of the novel peptide as Ala-Phe-Ser-Ser-Trp-Gly-amide. The chromatographic and biological properties of the synthetic peptide were the same as those of the native peptide, thus confirming structural analysis. The carboxy-terminal pentamer sequence is the active core of leucokinins II, V and VII and of achetakinin III (myotropic neuropeptides isolated from Leucophaea m. and from Acheta domesticus; Holman et al., 1990). Furthermore, the octapeptide leucokinin VII contains the novel sequence as its carboxy-terminal hexamer and Achetakinin V (AFHSWGamide) differs from it by one residue. This new peptide designated as locustakinin I (locusts) may therefore represent an evolutionary molecular link between leucokinin VII (cockroaches) and achetakinin V (crickets). Using synthetic locustakinin, physiological studies will be performed in the locust. In view of the known effects of leucokinins, locustakinin may be important in the stimulation of ion transport and inhibition of diuretic activity in Malpighian tubules. This study indicates that the AFXSWGamide sequence appears to have been well conserved and that members of this peptide family may be widely distributed among insects and posses a number of functions.     

Heat stress is associated with disruption of ion balance in the migratory locust,Locusta migratoria

Thermal tolerance is important in determining the spatial and temporal distributions of insects but the mechanisms which determine upper thermal limits remain poorly understood. In terrestrial insects heat tolerance is unlikely to be limited by oxygen supply but in some arthropods, heat stress has been shown to cause haemolymph hyperkalaemia which is known to have detrimental effects on neuromuscular excitability. It is however unresolved if heat-induced hyperkalemia is the cause or the result of cellular heat injury. To address the putative role of heat-induced hyperkalemia we quantified changes in ion and water balance in haemolymph and muscle tissue of the migratory locust during exposure to two static temperatures clustered around the CT_max (48 °C and 50 °C). We show that heat stress caused a loss of ion balance and severe haemolymph hyperkalaemia which coincided with the onset of heat stupor. Locusts were able to maintain their haemolymph volume throughout exposure, suggesting it is unlikely that osmoregulatory failure is responsible for haemolymph hyperkalaemia. When locusts were allowed to recover from heat stupor, they recovered ion balance quickly but were still unable to function optimally after 24 h. The results therefore indicate that both the haemolymph hyperkalaemia and associated depression of muscular function (heat stupor) are secondary results of cellular heat injury and that the cause of heat stupor most be sought elsewhere.     

Role of Olfactory and Visual Cues in the Attraction/Repulsion Responses to Conspecifics by Gregarious and Solitarious Desert Locusts

Desert locusts [Schistocerca gregaria Forskål (Orthoptera, Acrididae)] change phase in response to population density: solitarious insects avoid one another, but when crowded they change to the gregarious phase and aggregate. The attraction/repulsion responses of gregarious and solitarious locusts maintain phase differences in locust populations. Despite considerable research, the cues for aggregation are poorly understood; moreover, the repulsion response of solitarious locusts has not previously been investigated. This study analyzes the role of visual and olfactory stimuli in triggering these different responses to conspecifics. Isolation-reared insects were repelled by both olfactory and visual stimuli from other locusts. Crowd-reared insects were attracted by the combination of olfactory and visual cues. In addition, olfactory stimuli affected other behaviors in both phases, and behavioral differences between isolation- and crowd-reared locusts were clear even in the absence of conspecifics. The sensory and neurological mechanisms underlying these responses are not well understood and will form the basis for neurobiological investigations of locust phase.     

Purification, isolation and search for possible functions of a phase-related 6080-Da peptide from the haemolymph of the desert locust, Schistocerca gregaria

Abstract. A novel 6-kDa peptide has been isolated from the haemolymph of the desert locust, Schistocerca gregaria (Forskal) (Orthoptera: Acrididae) , and fully identified. Its concentration is higher in crowd-reared (gregarious) animals than in isolated-reared (solitarious) ones. Its concentration decreases progressively from generation to generation with solitarization of gregarious locusts. The peptide is also present in freshly laid eggs. The concentration in eggs is higher in those from crowd-reared locusts. It is likely that the peptide is transferred from the female's haemolymph into the eggs because injection of the peptide into females before oviposition increases the amount of the 6-kDa peptide in the eggs. A two-step HPLC purification procedure for this peptide is described. It allowed several bioassays to test for a possible function. Although the peptide's concentration in the haemolymph is high (0.1 m m ), which suggests some physiological function, we have as yet not been able to identify a function. We hypothesize that the 6-kDa peptide may somehow play a role as a maternal factor in the determination of the phase-state of the offspring.     

The effect of starvation on haemolymph metabolites,fat body and ovarian development in Oxya japonica (Acrididae: Orthoptera)

Haemolymph volume does not change significantly during 96 hr of starvation. Haemolymph and fat body metabolites are depleted significantly in insects denied food for 96 hr. The percentage of oöcyte resorption is increased considerably by starvation. Differences in the utilization of lipid and protein under conditions of starvation between adult Oxya and adult locusts may be attributed to the migratory habit of the latter.     

Hypolipemia,hypoglycemia, and inactivation of glycogen phosphorylase in Locusta migratoria

Feeding starved adult migratory locusts, Locusta migratoria, caused decreases of hemolymph lipid concentrations and of the percentage of active fat body glycogen phosphorylase which suggested that a molecule(s) from the neurosecretory system or the midgut may have been released to regulate metabolism. Fat body phosphorylase was also inactivated after insects were transferred from 0 to 25 ° C. In adults with elevated hemolymph lipid levels after the injection of small doses of corpus cardiacum extract (CC), feeding did not induce a decrease in hemolymph lipid concentrations. It appears that the processes initiated by feeding could not override the effects of the continued presence of adipokinetic hormone(s) (AKHs) in the hemolymph or their long-term effects. Aqueous, methanolic, or ethanolic extracts of brains or storage lobes (SL) of fed locust CC did not lead to decreases of hemolymph lipid concentrations. Bovine insulin was equally inactive when tested at doses which were previously reported to reduce lipid levels. Fractions of ethanolic brain extracts from 3-day-starved males collected after high-performance size-exclusion chromatography, however, produced hypoglycemic effects in fed males. Two biologically active fractions were found, one with high (≥ 10 kDa) and one with low molecular weight (approximately 1 kDa). © 1995 Wiley-Liss, Inc.     

Preliminary characterisation of locust diuretic peptide (DP-1) and another corpus cardiacum peptide (LCCP)

A simple two step HPLC purification protocol is described for one of the locust diuretic peptides (DP-1) and a second corpus cardiacum peptide (LCCP) of unknown function. DP-1 and LCCP are extracted from corpora cardiaca in 20% aqueous methanol (v/v), and applied to a high performance size-exclusion chromatography (HPSEC) column, from which DP-1 and LCCP co-elute in a fraction designated F7/8; this corresponds to a relative molecular mass of ca 6000–7000. Without sample concentration, F7/8 (2 ml) is applied directly onto a wide-pore reversed-phase HPLC column; LCCP and DP-1 are eluted in ca 12 and 20 min respectively on an increasing linear gradient of 0.5% min, starting at 30% acetonitrile. The diuretic activity of the DP-1 material was confirmed using the cAMP assay (Morgan and Mordue, 1985a, Insect Biochem.15, 247–257).DP-1 and LCCP were isolated from ca 650 locusts using the above procedures for sequence analysis by gas-phase sequencing. The low amount of DP-1 purified allowed only a partial and fragmentary sequence to be determined; insufficient material was available for amino acid analysis. The higher amount of LCCP allowed a partial sequence determination of residues 1–40. The titre of DP-1 in locust CC is calculated to be 1.7–2.1 pmol/CC.     

Molecular characterization and cell-specific expression of an ion transport peptide in the tobacco hornworm, <Emphasis Type="Italic">Manduca sexta</Emphasis>

The crustacean hyperglycemic hormone (CHH) peptides regulate diverse physiological processes from reproduction to metabolism and molting in arthropods. In insects, the ion transport peptides (ITP), also members of the CHH family, have only been implicated in ion transport. In this study, we sequenced a nucleotide fragment spanning the conserved A1/A2 region of the putative CHH/ITP gene. This fragment was amplified from larval cDNA of the tobacco hornworm, Manduca sexta and showed a high degree of sequence conservation with the same region from other insects and, to a lesser degree, with that of crustacean species, suggesting the presence of a Manduca-specific CHH/ITP mRNA (MasITP mRNA). CHH-like immunocytochemical analyses with two crustacean antisera (from Carcinus maenas and Cancer pagurus) identified the presence of CHH-like immunoreactivity in nervous tissue of all developmental stages, but not in the gut of M. sexta. Specifically, CHH-like peptides localized to paired type IA₂ neurosecretory cells of the pars lateralis of the brain (projecting ipsilaterallly to the corpora cardiaca-allata complex) and to neurosecretory cells and transverse nerves of the ventral nerve cord in larvae, pupae, and adults. The distribution of the putative MasITP peptide shifted during development in a manner consistent with metamorphic reorganization. A comparison of hemolymph equivalents of CHH detected by enzyme-linked immunosorbent assay with CHH-like immunoreactivity in transverse nerves provided evidence for the release of MasITP from the transverse nerves into the hemolymph at insect ecdysis. These data suggest the presence of an insect ITP in M. sexta and a role for this hormone during ecdysis. This research was funded by the National Institutes of Health (MBRS SCORE Program-NIGMS) to M.F. (grant no. 2S06 GM52588-09), by the National Center on Minority Health and Health Disparities (grant no. 5P20-MD000262), an NIH RISE graduate fellowship to A.L.D. (5 R25 GM59298), an NIH PREP fellowship to C.C.H. and M.A.U. (5 R25 GM64078), an NSF CSU LS-AMP fellowship to C.C.H. (HRD-9802113), and by NIH MBRS-MARC to M.D.P. (T34 GM08574) and NIH MA/MS-PhD Bridge Scholarship to A.L.D. and C.C.H. (5R25 GM48972).     

Functional Characterization of the Short Neuropeptide F Receptor in the Desert Locust,Schistocerca gregaria

Whereas short neuropeptide F (sNPF) has already been reported to stimulate feeding behaviour in a variety of insect species, the opposite effect was observed in the desert locust. In the present study, we cloned a G protein-coupled receptor (GPCR) cDNA from the desert locust, Schistocerca gregaria. Cell-based functional analysis of this receptor indicated that it is activated by both known isoforms of Schgr-sNPF in a concentration dependent manner, with EC₅₀ values in the nanomolar range. This Schgr-sNPF receptor constitutes the first functionally characterized peptide GPCR in locusts. The in vivo effects of the sNPF signalling pathway on the regulation of feeding in locusts were further studied by knocking down the newly identified Schgr-sNPF receptor by means of RNA interference, as well as by means of peptide injection studies. While injection of sNPF caused an inhibitory effect on food uptake in the desert locust, knocking down the corresponding peptide receptor resulted in an increase of total food uptake when compared to control animals. This is the first comprehensive study in which a clearly negative correlation is described between the sNPF signalling pathway and feeding, prompting a reconsideration of the diverse roles of sNPFs in the physiology of insects.