Sequence determination of three cuticular proteins and isoforms from the migratory locust,Locusta migratoria,using a combination of Edman degradation and mass spectrometric techniques

The cuticle (exoskeleton) is a characteristic structure of insects and other arthropods. It is an extracellular layer which surrounds and protects the insect, and it is composed of proteins, lipids, water molecules, phenolic materials and chitin. Four proteins isolated from the thorax and femur cuticle of pharate adult migratory locust, Locusta migratoria, have been purified by ion-exchange chromatography and reversed-phase high performance liquid chromatography (RP-HPLC). Their amino acid sequences were determined by combined use of mass spectrometry and automated Edman degradation. The cuticular extract was also separated by two-dimensional gel electrophoresis. In order to localize and identify the position of the proteins in the gel, a number of gel spots were excised and the proteins electroeluted. The molecular mass of some of the electroeluted proteins was determined by means of matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS) as well as by electrospray mass spectrometry (ESI-MS). Two of the sequenced proteins exist as pairs of closely related isoforms; one of the pairs contains the conserved 68-residue RR-2 motif, common for proteins from solid cuticles, and the other proteins contain the short motif Ala-Ala-Pro-Ala/Val repeatedly throughout the sequence.     

Characterization of cuticular proteins from the migratory locust,Locusta migratoria

Proteins were extracted from the still unhardened (teneral) cuticle of the migratory locust, Locusta migratoria. The proteins are soluble only at extreme pH-values and at low ionic strength, the solubility increases with decreasing temperature. The unhardened cuticle contains approx. 100 different proteins according to two-dimensional polyacrylamide gel electrophoresis. The majority of the proteins are very basic. The basicity and solubility properties of the proteins have necessitated development of modified electrophoretic procedures. The amino acid composition of the bulk protein shows that alanine, proline, glycine, valine and tyrosine constitute two thirds of the total amino acid content and that cysteine, methionine and tryptophan are absent.The proteins have been extracted from various parts of the cuticle and analysed by two-dimensional electrophoresis. Characteristic protein compositions were found for cuticle from the different body parts. Amino acid analyses of these extracts are strikingly similar. The only significant difference is in the glycine-alanine ratio. Cuticles that are destined to become hard are extremely rich in alanine, whereas the flexible parts of the cuticle are enriched in glycine. The results indicate that the proteins of locust cuticle constitute a group of structural proteins different from other known structural proteins.     

Isolation, characterization, and N-terminal sequence studies of cuticular proteins from the migratory locust, Locusta migratoria

The cuticle of the migratory locust, Locusta migratoria, contains more than a hundred different structural proteins, which can be extracted before but not after the cuticle is sclerotized. Fourteen of the proteins have been purified, covering a pI range of 6.4-10.6 and a molecular mass range of 15.2-36.8 kDa. The amino acid sequence from the N-terminal, ranging in length over 10-59 residues, have been obtained for eight of the proteins. A number of similarities, both in amino acid composition and in sequences, indicate that the proteins belong to a new protein family, characterized by an N-terminal part which is rich either in glycine, tyrosine and leucine or in hydrophilic amino acids, followed by a very alanine-rich portion. Similarities between this family of proteins and other structural proteins from insects are discussed.     

The primary structure of an endocuticular protein from two locust species,Locusta migratoria and Schistocerca gregaria,determined by a combination of mass spectrometry and automatic Edman degradation

The complete primary structures of two variants of a protein, Abd-5, isolated from the endocuticles of the migratory locust Locusta migratoria and the desert locust Schistocerca gregaria, have been determined. The proteins from the two species are N-terminally blocked with pyroglutamic acid. Their sequences differed only in two positions. Comparison of the sequences to those of other cuticular proteins shows that moderate homologies exist to 11 other cuticular proteins from insects representing four different orders. Amino acid residues in certain positions appear to be strictly conserved.     

Plasma-desorption mass spectrometry as an aid in protein sequence determination. Application of the method on a cuticular protein from the migratory locust (Locusta migratoria).

The complete amino acid sequence of a structural protein, protein 8, isolated from the pharate cuticle of the locust Locusta migratoria was determined. Protein 8 contains 148 amino acid residues and has an Mr of 15,224. By the extensive use of information obtained by plasma-desorption mass spectrometry (p.d.m.s.) it was possible to reduce the need for conventional sequence determination and to improve the reliability of the results. On the basis of the determined Mr of the intact protein all the peptides that constitute the complete sequence could be isolated from a time-course enzymic digestion. The isolated peptides were sequenced by using a combination of Edman degradation and carboxypeptidase digestion monitored by p.d.m.s. The alignment of the peptides was established from the time-course digestion and further verified by a second enzymic digestion. The primary structure of the protein consists of two hydrophilic and two hydrophobic regions. The hydrophobic regions are enriched in alanine, valine and proline and dominated by a repetitive sequence Ala-Ala-Pro-(Ala/Val). The sequence strengthens the view that the cuticle proteins belong to a unique family of structural proteins.     

Primary structure of a structural protein from the cuticle of the migratory locust, Locusta migratoria.

The complete amino acid sequence of a structural protein isolated from pharate cuticle of the locust Locusta migratoria was determined. The protein has an unusual amino acid composition: 42% of the residues are alanine and only 14 of the 20 common amino acid residues are present. The primary structure consists of regions enriched in particular amino acid residues. The N-terminal region and a region close to the C-terminus are enriched in glycine. The rest of the protein is dominated by alanine, except for two short regions enriched in hydrophilic residues. Almost all the proline residues are situated in the alanine-rich regions in a conserved sequence 'A-A-P-A/V'. An internal duplication has taken place covering most of the protein except for the glycine-rich regions. Owing to the unusual features of the protein a combination of automated Edman degradations and plasma-desorption m.s. was used to determine the complete sequence. The protein does not show sequence homology to other proteins, but proteins divided into regions enriched in the same kind of amino acid residues have been isolated from other insect structures.     

Deltamethrin-induced deregulation of the water balance in the migratory locust,Locusta migratoria

1. Several insecticides were tested for their ability to induce a water deregulation in the larval migratory locust. All of them provoked an accelerated dehydration (when compared to sham-operated insects). Deltamethrin and baygon were the most potent.2. This enhanced dehydration due to deltamethrin in adult locust resulted from an increase in the water loss through the feces. This increase was not due to a direct effect of deltamethrin on urine production by the Malpighian tubules but to a hormonal deregulation.3. Intoxicated insects produced large amounts of the vasopressin-like insect diuretic hormone. This higher synthesis activity occurs within the hours following the insecticide injection and is accompanied by an increase in water loss.4. These hormonal and metabolic modifications are transient. Hormonal level and diuresis rate both return to the basal levels 7 hr after the insecticide injection.     

Thiol-activated serine proteinases from nymphal hemolymph of the African migratory locust,Locusta migratoria migratorioides

Two unique serine proteinase isoenzymes (LmHP-1 and LmHP-2) were isolated from the hemolymph of African migratory locust (Locusta migratoria migratorioides) nymphs. Both have a molecular mass of about 23 kDa and are activated by thiol-reducing agents. PMSF abolishes enzymes activity only after thiol activation, while the cysteine proteinase inhibitors E-64, iodoacetamide, and heavy metals fail to inhibit the thiol-activated enzymes. The N-terminal sequence was determined for the more-abundant LmHP-2 isoenzyme. It exhibits partial homology to that of other insect serine proteinases and similar substrate specificity and inhibition by the synthetic and protein trypsin inhibitors pABA, TLCK, BBI, and STI. The locust trypsins LmHP-1 and LmHP-2 constitute a new category of serine proteases wherein the active site of the enzyme is exposed by thiol activation without cleavage of peptide bonds.     

Electrical properties of developing oocytes of the migratory locust, Locusta migratoria.

The electrical properties of developing nonfertilized oocytes of Locusta migratoria were studied, using intracellular microelectrodes. The inseries potential of the combined oomembrane and of the follicular cells was about 20 mV in the youngest oocytes. It increased as the oocytes developed and it reached a plateau of about 50 mV before full maturation, generally four to seven oocytes away from the fully-developed terminal oocyte. Current-voltage relations were always linear for hyperpolarizing currents. Most oocytes exhibited, however, rectification to outward current. Input resistance values varied with oocyte size from about 5 X 10(6) ohm for young oocytes to about 0.2 X 10(6) ohm for the more developed ones. Some oocytes displayed a transient depolarization on turning off a hyperpolarizing step of current. This depolarization was not correlated with the size of the oocyte or with any observed morphological feature. Any two adjacent oocytes were electrotonically coupled. A single ovariole thus represented a longitudinal chain of developing oocytes which were connected electrically. This was supported by electron microscope observations which revealed junctions partially impermeable to lanthanum and gap junctions between the follicular cells themselves and between follicular cells and oocytes. The coupling coefficient was dependent on the direction of current flow. The attenuation of voltage along an ovariole was always greater at the distal than at the proximal side.     

Peptidomics of the pars intercerebralis-corpus cardiacum complex of the migratory locust, Locusta migratoria.

The pars intercerebralis-corpora cardiaca system (PI-CC) of insects is the endocrinological equivalent of the hypothalamus-pituitary system of vertebrates. Peptide profiles of the pars intercerebralis and the corpora cardiaca were characterized using simple sampling protocols in combination with MALDI-TOF and electrospray ionization double quadrupole time of flight (ESI-Qq-TOF) mass spectrometric technologies. The results were compared with earlier results of conventional sequencing methods and immunocytochemical methods. In addition to many known peptides, several m/z signals corresponding to putative novel peptides were observed in the corpora cardiaca and/or pars intercerebralis. Furthermore, for a number of peptides evidence was provided about their localization and MALDI-TOF analysis of the released material from the corpora cardiaca yielded information on the hormonal status of particular brain peptides.     

Sulfakinin is an important regulator of digestive processes in the migratory locust,Locusta migratoria

Sulfakinin (SK) is a sulfated insect neuropeptide that is best known for its function as a satiety factor. It displays structural and functional similarities with the vertebrate peptides gastrin and cholecystokinin. Peptidomic studies in multiple insects, crustaceans and arachnids have revealed the widespread occurrence of SK in the arthropod phylum. Multiple studies in hemi- and holometabolous insects revealed the pleiotropic nature of this neuropeptide: in addition to its activity as a satiety factor, SK was also reported to affect muscle contraction, digestive enzyme release, odor preference, aggression and metabolism. However, the main site of action seems to be the digestive system of insects. In this study, we have investigated whether SK can intervene in the control of nutrient uptake and digestion in the migratory locust (Locusta migratoria). We provide evidence that sulfakinin reduces food uptake in this species. Furthermore, we discovered that SK has very pronounced effects on the main digestive enzyme secreting parts of the locust gut. It effectively reduced digestive enzyme secretion from both the midgut and gastric caeca. SK injection also elicited a reduction in absorbance and proteolytic activity of the gastric caeca contents. The characteristic sulfation of the tyrosine residue is crucial for the observed effects on digestive enzyme secretion. In an attempt to provide potential leads for the development of peptidomimetic compounds based on SK, we also tested two mimetic analogs of the natural peptide ligand in the digestive enzyme secretion assay. These analogs were able to mimic the effect of the natural SK, but their effects were milder. The results of this study provide new insights into the action of SK on the digestive system in (hemimetabolous) insects.     

Comparative toxicity of some synthetic insecticides,and a growth inhibitor,in the migratory locust,Locusta migratoria

1. The comparative toxicity of four synthetic insecticides (Dieldrin, Methomyl, Fenitrothion and Permethrin) in the different developmental stages of the migratory locust shows that resistance tends to increase with the developmental larval stages except in the adults which show lower resistance than the fifth larval stage.2. The resistance to a growth inhibitor, Teflubenzuron in the different developmental stages shows the reverse phenomenon—the younger larvae were more resistant than the fourth and fifth larval stages while the adults were almost not affected by this product.3. A comparison of the toxicity of the synthetic insecticides in the two forms of the insect, the solitarious and the gregarious, shows that the solitary insects were more resistant than the gregarious ones.     

Endocrine control of TAG lipase in the fat body of the migratory locust, Locusta migratoria

Aspects of the role and activation of the enzyme triacylglycerol lipase (TAG lipase) in the fat body of the migratory locust Locusta migratoria were investigated. TAG lipase is under the hormonal control of the three endogenous adipokinetic peptides of the migratory locust, Locmi-AKH-I, Locmi-AKH-II and Locmi-AKH-III. Injection of low doses (5-10 pmol) of each peptide causes an increase in lipase activity. The activation of lipase is time dependent: an elevated activity was recorded 15 min after injection of 10 pmol Locmi-AKH-I and maximum activation was reached after 45-60 min. The activation of TAG lipase is also dose-dependent. Doses of 2 pmol of each Locmi-AKH had no effect, whereas 5 pmol caused a significant activation. Maximum activation is reached with a dose of 10 pmol. Analogues of the second messengers cAMP (cpt-cAMP) and IP(3) (F-IP(3)) both activate the enzyme glycogen phosphorylase whereas only cpt-cAMP, but not F-IP(3), activates TAG lipase; cpt-cAMP elevates the lipid levels in the haemolymph. Activation of lipase is specific to the three endogenous AKH peptides: 5 pmol of the endogenous peptide Locmi-HrTH and 10 pmol of corazonin failed to activate lipase. High doses of octopamine did not activate lipase nor did they elevate the lipid concentration in the haemolymph. TAG lipase is stimulated by flight activity but activation is slower than that of glycogen phosphorylase: after 30 min of flight or after 5 min of flight plus 1h of subsequent rest, activity of TAG lipase is increased, but not immediately after 5 min of flight. In contrast, glycogen phosphorylase is activated significantly after 5 min of flight. These activation patterns of the two enzymes mirror-image the concentration of their substrates in the haemolymph: there is a significant decrease in the concentration of carbohydrates after 5 min of flight, whereas no change of the concentration of lipids can be measured after such short time of flight activity; however, a subsequent rest period of 1h is sufficient to increase the lipid concentration.     

On the pronymphal stage in the migratory locust (Locusta migratoria, Orthoptera, Acrididae)

The structure of the integument, somatic and visceral muscles, midgut, and Malpighian tubules were investigated at the late stages of the embryonic and early postembryonic development of the migratory locust, Locusta migratoria, to assess the organization of its pronymphal stage. In its morphogenetic features, the vermiform locust larva sometimes called the pronymph corresponds to the first nymphal instar covered with the second embryonic cuticle which has not been shed. Since the first-instar locust nymphs before and after the shedding of this embryonic cuticle differ significantly in many morphological characters, two consecutive phases of this nymphal instar can be distinguished: the first phase existing from the moment of development of the third embryonic cuticle to the shedding of the second one; the second phase existing from the shedding of the second embryonic cuticle to the formation of the cuticle of the second nymphal instar. Since the pronymphal stage should precede the nymph stage, it may be concluded that the pronymph of the locust is fully embryonized and covered with the second embryonic cuticle, which is also typical of other insects with hemimetabolous development (Konopová and Zrzavý, 2005). Therefore, it would be erroneous to refer to the vermiform first-instar nymph as the pronymph, because the two stages are separated by molting and formation of a new cuticle.     

Oviposition by the African migratory locust, Locusta migratoria migratorioides, in a crop environment in South Africa

Oviposition by the African migratory locust, Locusta migratoria migratorioides (Orthoptera: Acrididae), was studied in maize and wheat crops on the Orange Free State Highveld. Maize was shown to be the most important oviposition habitat with peak laying taking place in autumn and early winter when highest pod densities were recorded. Laying was mainly concentrated along the middle of the crop interrows in maize and within clearings in the wheat crop. Despite the uniform layout of these crops, the distribution of egg pods was found to be aggregated. Non-reproductive behaviour, such as locust aggregation, basking and feeding, as well as environmental factors appeared to influence the distribution of egg pods in these crops. Secondary selection for optinum soil moisture and compaction on the laying site enhanced the aggregation of pods.     

Wing dimorphism in the migratory locust,Locusta migratoria: differentiation of wing morph and phase polyphenism

A short‐winged morph was recently discovered in the migratory locust, Locusta migratoria. It is different from the normal, long‐winged morph not only in forewing length but also in hind femur length, displaying a dimorphism. To understand the significance of this dimorphism, other morphological characters were compared between the two morphs, and the time of differentiation of wing‐pad length was investigated. Wing weights were heavier in the long‐winged morph than in the short‐winged morph. This result showed that the short‐winged morph is not formed by a failure of wing expansion. No obvious morph‐specific differences were observed in wing venation, but wing allometry studies indicated that the distal areas of the fore‐ and hindwings were disproportionally reduced in the short‐winged morph compared to the long‐winged morph. The morphological differentiation of the wing pad between the two morphs was observed at the penultimate nymphal stage. The flight muscle was well developed in the two morphs, and no sign of flight muscle histolysis was detected in either morph after adult emergence. An analysis of adult body dimensions suggested that the density‐dependent phase shifts known for the long‐winged morph of this locust were also exhibited by the short‐winged morph, demonstrating that these shifts are not specific to the migratory long‐winged morph.     

Tyramine as a possible neurotransmitter/neuromodulator at the spermatheca of the African migratory locust, Locusta migratoria

Tyramine-like immunoreactivity was identified in neurons of the VIIIth abdominal ganglion and in axons projecting to the spermatheca of adult females of Locusta migratoria. Tyramine-like immunoreactive processes were also found throughout all regions of the spermatheca and tyramine-like immunoreactive bipolar or multipolar neurons were present on the spermathecal sac. HPLC coupled with electrochemical detection revealed more tyramine than octopamine present in spermathecal tissue. Electrical stimulation of the ventral ovipositor nerve resulted in a significant increase in calcium-dependent release of tyramine from the spermatheca. Both tyramine and octopamine increase the frequency and basal tonus of spermathecal contractions in a dose-dependent manner, with octopamine having a lower threshold. When tyramine is applied along with a half maximal octopamine dose, there is an additive effect on contractions of the spermatheca with slight synergistic effects at lower doses of tyramine. High concentrations of tyramine (10(-4)M) stimulated increases in cyclic AMP levels of the spermatheca; an effect blocked by phentolamine. Phentolamine has a higher affinity (and thus a lower IC(50) value congruent with5.6x10(-8)M) than yohimbine (IC(50) congruent with1.1x10(-4)M) in reducing tyramine-induced spermathecal contractions. Taken together, these results suggest that tyramine may be a co-transmitter with octopamine at the spermatheca, with both neuroactive chemicals acting on an octopamine receptor.