Aspects of cuticular sclerotization in the locust, Scistocerca gregaria, and the beetle, Tenebrio molitor

The number of reactive amino groups in cuticular proteins decreases during the early period of insect cuticular sclerotization, presumably due to reaction with oxidation products of N-acetyldopamine (NADA) and N-beta-alanyldopamine (NBAD). We have quantitated the decrease in cuticular N-terminal amino groups and lysine epsilon-amino groups during the first 24h of sclerotization in adult locusts, Schistocerca gregaria, and in larval and adult beetles, Tenebrio molitor, as well as the increase in beta-alanine amino groups in Tenebrio cuticle. The results indicate that nearly all glycine N-terminal groups and a significant part of the epsilon-amino groups from lysine residues are involved in the sclerotization process in both locusts and Tenebrio. A pronounced increase in the amount of free beta-alanine amino groups was observed in cuticle from adult Tenebrio and to a lesser extent also in Tenebrio larval cuticle, but from locust cuticle no beta-alanine was obtained. Hydrolysis of sclerotized cuticles from locusts and Tenebrio by dilute hydrochloric acid released a large number of compounds containing amino acids linked to catecholic moieties. Products have been identified which contain histidine residues linked via their imidazole group to the beta-position of various catechols, such as dopamine, 3,4-dihydroxyphenyl-ethanol (DOPET), and 3,4-dihydroxyphenyl-acetaldehyde (DOPALD), and a ketocatecholic compound has also been identified composed of lysine linked via its epsilon-amino group to the alpha-carbon atom of 3,4-dihydroxyacetophenone. Some of the hydrolysis products have previously been obtained from sclerotized pupal cuticle of Manduca sexta [Xu, R., Huang, X., Hopkins, T.L., Kramer, K.J., 1997. Catecholamine and histidyl protein cross-linked structures in sclerotized insect cuticle. Insect Biochemistry and Molecular Biology 27, 101-108; Kerwin, J.L., Turecek, F., Xu, R., Kramer, K.J., Hopkins, T.L., Gatlin, C.L., Yates, J.R., 1999. Mass spectrometric analysis of catechol-histidine adducts from insect cuticle. Analytical Biochemistry 268, 229-237; Kramer, K.J., Kanost, M.R., Hopkins, T.L., Jiang, H., Zhu, Y.C., Xu, R., Kerwin, J.L., Turecek, F., 2001. Oxidative conjugation of catechols with proteins in insect skeletal systems. Tetrahedron 57, 385-392], but the lysine-dihydroxyacetophenone compound and the histidine-DOPALD adduct have not been reported before. It is suggested that the compounds are derived from NADA and NBAD residues which were incorporated into the cuticle during sclerotization, and that the lysine-dihydroxyacetophenone as well as the DOPET and DOPALD containing adducts are degradation products derived from cross-links between the cuticular proteins, whereas the dopamine-containing adducts are derived from a non-crosslinking reaction product.     

Chlorinated tyrosine derivatives in insect cuticle

A method for quantitative measurement of 3-monochlorotyrosine and 3,5-dichlorotyrosine in insect cuticles is described, and it is used for determination of their distribution in various cuticular regions in nymphs and adults of the desert locust, Schistocerca gregaria. The two chlorinated tyrosine derivatives were present in all analyzed regions in mature adult locusts, the highest concentrations were found in the sclerotized cuticle of femur and tibia, but significant amounts were also present in the unsclerotized arthrodial membranes. Small amounts of the two amino acids were obtained from pharate, not-yet sclerotized cuticle of adult femur and tibia, the amounts increased rapidly during the first 24 h after ecdysis and more slowly during the next two weeks. Control analyses using stable isotope dilution mass spectrometry have confirmed that the chlorinated tyrosines are not artifacts formed during sample hydrolysis. Mono- and dichlorotyrosine are also present in cuticular samples from other insect species, such as the beetle, Tenebrio molitor, the moth Hyalophora cecropia, the cockroach Blaberus craniifer, and the bug Rhodnius prolixus, but not in the sclerotized puparial cuticle of the blowfly, Calliphora vicina, or in sclerotized ootheca from the cockroach, Periplaneta americana. Cuticular sclerotization and formation of chlorotyrosines occur simultaneously in locust legs; sclerotized cuticles tend to have a higher content of chlorotyrosines than unsclerotized cuticles, but it is concluded that the chlorotyrosines are not just a by-product from the sclerotization process.     

Quantitative determination of catecholic degradation products from insect sclerotized cuticles

Acid hydrolysates of cuticle from various insect species were quantitatively analyzed for five catecholic amino acid adducts. Four of the adducts are ketocatechols; in three of them the amino acid moiety, either lysine, glycine or beta-alanine, is connected via its amino group to the alpha-carbon atom of 3,4-dihydroxyacetophenone, in the fourth a tyrosine residue is connected to the same position via its phenolic group. The fifth adduct contains histidine linked via its imidazole-ring to the beta-position of the dopamine sidechain. The three ketocatecholic adducts containing alpha-amino acids were obtained in significant yields from adult cuticles of the locust Schistocerca gregaria, the cockroaches Blaberus craniifer and Periplaneta americana, and the beetles Pachynoda sinuata and Tenebrio molitor, but only in trace amounts from larval and pupal cuticles of T. molitor, pupal cuticles of the moths Manduca sexta and Hyalophora cecropia, and puparia of the blowfly Calliphora vicina. The beta-alanine-containing ketocatechol was not obtained from cuticle of locusts and T. molitor larvae and pupae, but it was present in the hydrolysates of the other cuticles. The beta-histidine-dopamine adduct was obtained from all the cuticles, the highest yield was obtained from adult P. sinuata and the lowest yield was from adult S. gregaria. The beta-histidine-dopamine adduct is derived from the product formed by reaction of p-quinone methides of N-acetyldopamine (NADA) or N-beta-alanyldopamine (NBAD) with histidine residues in the cuticular proteins. The ketocatecholic adducts are assumed to be degradation products of crosslinks formed when oxidized dehydro-NADA reacts with the cuticular proteins. The insect species investigated appear to use both pathways for sclerotization, but to widely differing extents; the dehydro-NADA pathway dominates in cuticles which are exposed to strong deforming forces, such as those of adult locusts and cockroaches, and the p-quinone methide pathway dominates in cuticle of lepidopteran pupae and blowfly puparia, which are not exposed to strong mechanical forces but have to be effectively protected against microbial and fungal attacks.     

Studies on proteins in post-ecdysial nymphal cuticle of locust, Locusta migratoria, and cockroach, Blaberus craniifer

Proteins were extracted from the cuticle of mid-instar nymphs of locusts, Locusta migratoria, and cockroaches, Blaberus craniifer. Seven proteins were purified from the locust extract and five from the cockroach extract, and their amino acid sequences were determined. Polyacrylamide gel electrophoresis indicates that the proteins are present only in the post-ecdysially deposited layer of the nymphal cuticles. One of the locust and one of the cockroach nymphal proteins contain a 68-residue motif, the RR-2 sequence, which has been reported for several proteins from the solid cuticles of other insect species. Two of the cockroach proteins contain a 75-residue motif, which is also present in a protein from the larval/pupal cuticle of a beetle, Tenebrio molitor, and in proteins from the exoskeletons of a lobster, Homarus americanus, and a spider, Araneus diadematus. The motif contains a variant of the Rebers-Riddiford consensus sequence, and is called the RR-3 motif. One of the locust and three of the cockroach post-ecdysial proteins contain one or more copies of an 18-residue motif, previously reported in a protein from Bombyx mori pupal cuticle. The nymphal post-ecdysial proteins from both species have features in common with pre-ecdysial proteins (pharate proteins) in cuticles destined to be sclerotised; they show little similarity to the post-ecdysial cuticular proteins from adult locusts or to proteins from soft, pliable cuticles. Possible roles for post-ecdysial cuticular proteins are discussed in relation to the reported structures.     

Cuticular sclerotization in the beetles Pachynoda epphipiata and Tenebrio molitor

The sclerotization of cuticle in two species of beetles, Pachynoda epphipiata and Tenebrio molitor, has been investigated and compared with the sclerotization in the locust, Schistocerca gregaria. Two types of sclerotization, β-sclerotization and quinone tanning, occur in all three species. The main type is β-sclerotization, i.e. cross-linking of proteins by means of N-acetyldopamine which is connected to the proteins through the β-position of its side chain. β-Sclerotization is completed in P. epphipiata when it leaves its cocoon, whereas in adult locusts and in adult Tenebrio β-sclerotization continues for several weeks. The cuticle of all three species contains an insoluble enzyme which activates the β-position of N-acetyldopamine and is presumably responsible for the formation of the cross-links. Locust cuticle contains also small amounts of another enzyme which activates the aromatic ring of N-acetyldopamine, resulting in the formation of an o-quinone, which may be involved in quinone tanning of the cuticle. At emergence adult Tenebrio cuticle is rich in both enzymes, but the quinone-forming enzyme is inactivated after a few days, whereas the β-enzyme first decreases and later increases in activity, so that the β-enzyme is the dominating activity in the cuticle of mature adult Tenebrio. The quinone-forming enzyme is presumably responsible for the formation of the brown colour of Tenebrio exocuticle.The exocuticle of adult beetles contains 3,4-dihydroxyphenylacetic acid, which, although it is not easily extracted from the cuticle, is not covalently bound to cuticular components. In Tenebrio it appears in the cuticle a few days after the final ecdysis.The amino acid compositions of both larval, pupal, and adult cuticle from P. epphipiata have been determined, and they are compared with the composition of the cuticle of the corresponding stages of Tenebrio.     

Regional differences in degree of resilin cross-linking in the desert locust, Schistocerca gregaria

Various cuticular regions from the desert locust, Schistocerca gregaria, were quantitatively analyzed for two cross-linking amino acids, dityrosine and trityrosine, characteristic constituents of the rubberlike cuticular protein, resilin. These amino acids were found in all regions of cuticle investigated, but in widely varying amounts. In fully mature adult locusts the largest amounts of di- and trityrosine were obtained from the prealar arms and wing-hinges, structures possessing long-range elasticity and being involved in energy storage in the flight system. In structures where deformations tend to occur more slowly, such as the clypeo-labral springs and tracheae, di- and trityrosine are less abundant. In sclerotized cuticle from femur and tibia, as well as in cornea and in the highly stretchable intersegmental membranes of mature females, they are only found in trace amounts and are probably unrelated to elasticity. The trityrosine-to-dityrosine ratio in the various cuticular regions vary from nearly equal amounts of the two amino acids to about ten times more dityrosine than trityrosine, indicating that the regions differ in degree of cross-linking; the tracheal wall is the material with the highest trityrosine-to-dityrosine ratio. In some cuticular regions the ratio increases during maturation from newly moulted (teneral) adults to reproductively active locusts; the most pronounced increase was observed for the wing-hinges, and only a small increase was observed for the abdominal tergal plates. In most cuticular regions in fifth instar locust nymphs the contents of di- and trityrosine corresponded to the contents measured for the adult cuticular regions, but only trace amounts of the two amino acids were obtained from the region of the nymphal wing base which corresponds to the wing-hinge containing cuticular region in adult locusts.     

New Proctolin Analogues: Synthesis and Biological Investigation in Insects

We have extended our work on structure/activity relationship studies of the neuropeptiden proctolin (H-Arg-Tyr-Leu-Pro-Thr-OH) by evaluating the effects of the following proctolin analogues: H-X¹-Tyr-Leu-Pro-Thr-OH, where X¹ = D-Arg (I), N-Me-Arg (II), Can (III), Orn(di-Me) (IV), Orn(iPr) (V), Lys(N, N-di-Me) (VI), Lys(iPr) (VII), Lys(Nic) (VIII) and D-Lys(Nic) (IX). In analogues I–IX, the N-terminal Arg residue was replaced by basic amino acid derivatives with peptides containing amino acid residues with an isosteric system on the back side chain relative to Arg (compounds III, V and VI) or homo-Arg (compound VII). Analogues I–IX were evaluated for myotropic activity on the in vitro heart preparation of Tenebrio molitor, whereas peptides II, V, and VII–IX were tested for contractile activity on the isolated foregut of locust Schistocerca gregaria. Peptide II and III showed full cardiotropic activity in T. molitor while peptides V and VII showed 40% and 15%, respectively, locust-gut contracting activity of proctolin.     

Cuticular sclerotization in larval and adult locusts, Schistocerca gregaria

The sclerotization of both larval and adult cuticle from the desert locust, Schistocerca gregaria, has been studied by measuring the incorporation of radioactive dopamine and N-acetyldopamine into the cuticle. The results are compared with the degree of sclerotization of the cuticle and the amount of sclerotizing enzyme present. The various parts of the cuticle differ considerably with respect to the degree of sclerotization: in adult locusts the mandibles and the dorsal mesothoracic cuticle contain about twenty times as much cross-linking material per mg cuticle than is present in the abdominal tergites and sclerites.The degree of sclerotization in the various types of cuticle is apparently not determined by the amounts of sclerotizing enzyme present, and the rate at which radioactive dopamine or N-acetyldopamine is incorporated into the cuticle appears also to be unrelated to the amount of enzyme.The degree of sclerotization of the various parts of the cuticle from fifth instar larvae corresponds with the amounts of labelled dopamine which are incorporated during the first day after ecdysis, whereas there is no correlation between sclerotization and the amounts of labelled dopamine which are incorporated in older larvae. The degree of sclerotization of adult cuticle after 1 day corresponds to the incorporation of dopamine during the first day. When older animals are compared only little correlation is observed. The relative rates of sclerotization in the various parts of the cuticle must therefore change as the adult insect grows older.The changes in the incorporation pattern during the development of the locust are discussed in relation to the physiological control of the sclerotization process.     

Mechanical properties of the beetle elytron, a biological composite material

We determined the relationship between composition and mechanical properties of elytra (modified forewings that are composed primarily of highly sclerotized dorsal and less sclerotized ventral cuticles) from the beetles Tribolium castaneum (red flour beetle) and Tenebrio molitor (yellow mealworm). Elytra of both species have similar mechanical properties at comparable stages of maturation (tanning). Shortly after adult eclosion, the elytron of Tenebrio is ductile and soft with a Young's modulus (E) of 44 ± 8 MPa, but it becomes brittle and stiff with an E of 2400 ± 1100 MPa when fully tanned. With increasing tanning, dynamic elastic moduli (E') increase nearly 20-fold, whereas the frequency dependence of E' diminishes. These results support the hypothesis that cuticle tanning involves cross-linking of components, while drying to minimize plasticization has a lesser impact on cuticular stiffening and frequency dependence. Suppression of the tanning enzymes laccase-2 (TcLac2) or aspartate 1-decarboxylase (TcADC) in Tribolium altered mechanical characteristics consistent with hypotheses that (1) ADC suppression favors formation of melanic pigment with a decrease in protein cross-linking and (2) Lac2 suppression reduces both cuticular pigmentation and protein cross-linking.     

Biological evaluation of analogues of an insect neuropeptide proctolin

Continuing our studies on proctolin (Arg-Tyr-Leu-Pro-Thr) we performed the synthesis and biological evaluation of 52 analogues substituted in position 2, 3, 4, and 5 of the peptide chain. The peptides were bioassayed for cardiotropic activity in vitro on Tenebrio molitor and myotropic activity on foregut of Schistocerca gregaria. Twenty analogues retained 20-80% of proctolin activity.     

Comparison between the sclerotization of adult and larval cuticle in Schistocerca gregaria

Femur cuticle from fifth instar larvae of the desert locust, Schistocerca gregaria, has been characterized with respect to composition, rate of deposition, and rate of sclerotization. The results are compared with those from adult cuticle of the same species. The protein compositions of the two types of cuticle are very similar, but the rates of deposition of both protein and chitin are different. The main difference is, however, that sclerotization is restricted to the first day after ecdysis in larval cuticle, whereas in adult cuticle sclerotization continues for at least a couple of weeks. The result is that the endocuticle remains untanned in the larvae, whereas in the adults the whole cuticle becomes tanned.     

黄粉虫幼虫体壁硬化过程中酚氧化酶活性的变化

为研究酚氧化酶(PO)在昆虫蜕皮过程中的功能和作用, 采用微量测定法研究了黄粉虫Tenebrio molitor体壁硬化过程中血淋巴和表皮中的PO活性变化。结果表明：初蜕皮幼虫血淋巴中PO活性较高, 但随着体壁的不断黑化与硬化, 其活性呈现下降趋势, 在3～4 h内达到最低点, 而后PO活性逐渐上升, 7 h左右活性上升至最高, 并接近于正常幼虫的水平;在刚蜕完皮后的1 h内, 体壁中 PO活性基本无变化, 但随后即开始下降, 3 h左右降到最低点, 然后开始回升, 6~7 h左右恢复到正常水平, 并趋于稳定;以L-DOPA为底物, 通过双倒数曲线作图法求得黄粉虫血淋巴PO的Km＝1.176 mmol/L, 体壁PO的Km＝0.881 mmol/L, 表明体壁PO与底物L-DOPA的亲和力要高于血淋巴PO。研究表明两种来源的酚氧化酶均参与了黄粉虫幼虫的体壁硬化过程, 但在作用方式及与底物的亲和力方面存在差异。     

The imaginal ecdysis of the desert locust, Schistocerca gregaria.

ABSTRACT. The imaginal ecdysis of the desert locust, Schistocerca gregaria (Frsk.), is described in detail. Ecdysis is considered to begin when the fifth instar nymph ceases to feed and to end when the adult takes its first meal. It is here divided into six stages: Stages 1 and 2 constitute the pre-emergence behaviour; Stages 3 and 4, emergence; Stage 5, the expansion of the new cuticle; and Stage 6, the post-expansional behaviour.     

Tentative identification of a resilin gene in Drosophila melanogaster

A search of the Drosophila genome for gene products with similarities to the amino acid sequences of three tryptic peptides from locust (Schistocerca gregaria) resilin gave two positive results: gene products CG15920 and CG9036. In both conceptual translation products a 62-residue region is present, which is identical to the resilin peptides in 29 positions. Gene product CG15920 has an amino acid composition closely resembling that of resilins from various insect species, and it has an N-terminal signal peptide sequence indicating that it is an extracellular protein. The 62-residue region shows similarity to the RR-2 sequence, which is common for a number of matrix proteins from insect solid cuticle. The N- and C-terminal regions flanking the 62-residue in CG15920 are dominated by 18 repeats of a 15-residue sequence and 11 repeats of a 13-residue sequence, respectively. The structures of the repeats predict that the peptide chain will fold in an irregular, extended beta-spiral, resembling the structures suggested for mammalian elastin and spider flagelliform silk, two materials which, like resilin, possess long-range elasticity. Accordingly, we suggest that gene product CG15920 is a Drosophila resilin precursor.     

Fine Structure of Female Accessory Reproductive Gland in the Mealworm Beetle, Tenebrio molitor

ABSTRACT The fine structure of female accessory reproductive gland (FARG) of the adult mealworm beetle, Tenebrio molitor is studied with light and electron microscopes. The FARG is a simple tubular organ that composed of two kinds of cells-secretory epithelial cells and duct forming cells. The lumen of FARG is lined with a thin cuticle and filled with secretory materials. Each secretory epithelial cell has its peculiar end apparatus in addition to well-developed rough endoplasmic reticulum (rER), mitochondria, and secretory vesicles. They are forming basal infolding along the plasma membrane. Along the inner surface of the plasma membrane, numerous secretory vesicles are seen. The glandular secretions of the epithelial secretory cells are synthesized via rER to Golgi apparatus, and are stored in the extracellular cavity in the epithelial cell. These secretions are drained to the lumen through the end apparatus and this type of glandular secretion in the insects is type III. Histochemical reactions reveal the major component of these glandular secretions is an acid mucopolysaccharide.     

The distribution of taurine in the tissues of some species of insects

Taurine concentration was measured in the tissues of Schistocerca americana gregaria, Blatella orientalis and Tenebrio molitor and was found to be present in all those examined. In the locust Schistocerca gregaria it was found in particularly high concentration in active flight muscle (26 μmol/g) to a lesser extent in the eye (7 μmol/g). The thoracic concentration of taurine in developing locusts showed a strong correlation with the development of flight muscle, increasing from 4.4 to 11.3 μmol/g in the thorax during the first 24 days of adult life. Analysis of the thoracic content of taurine in adults of the three species examined confirmed that high taurine concentrations are associated with fully functional flight muscle. The concentration in the thorax of the flightless flour beetle T. molitor was only 1.79 μmol/g compared to 11.33 μmol/g for the locust. Stress due to flying and picrotoxin poisoning caused the release of taurine from the muscles into the haemolymph, causing the concentration to rise from 1.1 to 2.2 and 5.76 μmol/g respectively. Analysis of the distribution of arginine kinase showed that this release was not due to breakdown of the muscle tissue.     

Spatial and temporal variations in cuticle proteins as revealed by monoclonal antibodies. Immunoblotting analysis and ultrastructural immunolocalization in a beetle, Tenebrio molitor

A library of monoclonal antibodies (Mabs) against adult cuticle of Tenebrio was used to visualize the secretion of cuticular antigens during metamorphosis. Immunoblots of water- and urea-soluble proteins, and high resolution immunogold labelling has shown that, except in one clone, the Mabs recognize antigens in the three developmental stages. However, the MW of larval and pupal antigens are different from the adult ones, though sharing common epitopes. Blots of cuticle proteins (CPs) bound to different lectins shown few water-soluble glycosylated proteins weakly or not recognized by the Mabs, suggesting that the majority of the Mabs do not recognize glycosylated epitopes. The immunolocalization of the different antigens suggests a molecular basis for both developmental and regional variations in cuticular architecture and to the modifications due to sclerotization, which differ between pre- and postecdysial cuticles of the three developmental stages.     

Development of a real-time PCR assay for measurement of yellow protein mRNA transcription in the desert locust Schistocerca gregaria: a basis for isolation of a peptidergic regulatory factor

A major unresolved issue in insect endocrinology concerns the question of whether or not insects have sex hormones. Conclusive evidence in favor of the presence of such hormones awaits the establishment of appropriate bioassays in males. The cuticle of sexually mature males of the desert locust Schistocerca gregaria turns yellow in gregarious conditions only. Neither females nor isolated males ever turn yellow. The yellowing is due to the deposition in the cuticle of a male-specific Yellow Protein (YP), of which the amino acid sequence is known. In this paper, we describe the partial cloning of the cDNA encoding this Yellow Protein. The tissue distribution and temporal expression of the YP-mRNA is studied in detail using RT-PCR. Furthermore, an RT-PCR based bioassay was developed, which may serve as a reliable tool to help identify the hormones controlling the yellowing process. In addition to juvenile hormone, we have shown that a factor present in the brain-corpora cardiaca is involved in the yellow coloration, as injection of an extract induces the expression of YP-mRNA in isolated gregarious males.     

Amino acid sequence of Sp23, a structural protein of the spermatophore of the mealworm beetle, Tenebrio molitor.

In this paper we present the amino acid sequence of Sp23, a structural protein of the spermatophore of the mealworm beetle (Tenebrio molitor). This is the first report of the primary structure of a spermatophorin. The protein is rich in proline (24%), relatively rich in tyrosine (9%) and glutamine (10%), and does not contain sulfur-containing amino acids. In the carboxyl-terminal half of the protein a peptide motif is repeated which is similar to a repetitive motif in a group of dipteran chorion proteins.