Partial characterization and isolation of earwig `allatostatins'': biological activities in earwigs and cockroaches

Allatostatins are a family of neuropeptides first isolated from the cockroach, Diploptera punctata, that inhibit juvenile hormone production in that species (but do not do so in earwigs), and inhibit hindgut muscle contractions in some insects, including the earwig, Euborellia annulipes. We examined whether material from earwig brains is similar to cockroach allatostatins biochemically, immunologically and physiologically. Brain extracts from adult female earwigs were separated by high performance liquid chromatography (HPLC), followed by radioimmunoassay using antibodies to cockroach allatostatin (Dip-AST). Fractions that co-eluted with cockroach allatostatins were immunoreactive, and at least two peaks of immunoreactivity were detected. Material from each peak at 10 nM Dip-AST equivalents inhibited juvenile hormone biosynthesis in vitro by corpora allata of 2-day virgin D. punctata cockroaches; 1 nM was less effective, and non-immunoreactive fractions failed to inhibit juvenile hormone biosynthesis. Both crude and Sep-Pak (Waters) purified extracts of brains of earwigs containing 1 nM Dip-AST equivalents failed to suppress hindgut contractions in vitro of 2-day earwigs and of brooding female earwigs. In contrast, 1 nM cockroach allostatin 1 (Dip-AST 7) reversibly inhibited hindgut contractions in vitro. These results suggested the presence of another brain factor, such as proctolin, that counteracts the inhibitory effects of Dip-AST. In support of this hypothesis, proctolin stimulated hindgut contractions in vitro at 1 nM; the effects of equal concentrations of allatostatin and proctolin varied with the stage of the female. Furthermore, HPLC-separated fractions that co-eluted with cockroach allatostatin and were immunoreactive with antibodies to Dip-AST suppressed hindgut contractions in vitro of 2-day female earwigs. Finally, crude brain extracts of earwigs suppressed earwig juvenile hormone biosynthesis in vitro in glands of low, but not in glands of high, activity. Thus, earwig brain extract after HPLC separation has Dip-AST-like material that inhibits cockroach corpora allata and suppresses earwig hindgut contractions. Sep-Pak-extracted earwig brain material, however, does not inhibit earwig gut contraction. Although synthetic Dip-AST 7 does not inhibit juvenile hormone synthesis by earwig corpora allata, there is heat-stable material in earwig brain extract that does have this action.     

Effects of selected neuropeptides, mating status and castration on male reproductive tract movements and immunolocalization of neuropeptides in earwigs

In earwigs, the male reproductive system is complex, comprising accessory glands and long dual intromittent organs for transfer of materials to the female and for removal of rival sperm. We investigated potential factors altering contractions of the male reproductive tracts in vitro. Tracts from 0-day (newly emerged) males displayed relatively little motility in vitro; however, those from 5-day (intermediate stage of sexual maturity) and 8-day (fully mature) males pulsed vigorously. Both 1 and 100 nM proctolin (RYLPT-OH) stimulated the rate of contraction of reproductive tracts from both 5-day and 8-day males. In contrast, 1 nM and 100 nM FGLa AST (cockroach allatostatin) did not affect pulsations. However, 10 microM FGLa AST decreased activity of reproductive tracts. Mating decreased motility of tracts from 5-day old males, but did not alter motility of tracts from 8-day old males. Castration of larvae significantly suppressed reproductive tract motility in subsequent 8-day old adults compared with those of intact or sham-operated adults. Castration also suppressed seminal vesicle size. Lastly, we assessed the presence and distribution of proctolin-like and allatostatin-like immunoreactivity in tissues. Immunoreactivity to FGLa AST and proctolin was widespread, occurring in the brain and ventral ganglia. Surprisingly, we did not detect immunoreactivity to either FGLa AST or proctolin within the reproductive system; however, proctolin immunoreactivity was evident in nerves extending from the terminal ganglion of 8-day, but not 0-day, males. Collectively, these experiments demonstrate that the male earwig reproductive system is an appropriate model for use in addressing sexual maturation and activities in male insects.     

The role of proctolin and glutamate in the excitation-contraction coupling of insect visceral muscle

Proctolin (1 X 10(-10) to 1 X 10(-9) M) had a minimal effect on the spontaneous and evoked electrical events of the hindgut of the cockroach Leucophea maderae. Spontaneous action potentials and contractile activity stopped when the hindgut was exposed to 2 mM Mn2+. Eighty per cent of the response of the hindgut to glutamate was blocked by manganese, but only 35% of the response to proctolin. Hindguts were responsive to proctolin in a calcium-free medium, but not to glutamate. Moreover, proctolin appeared to facilitate the reentry of calcium after depleted preparations were returned to normal levels of external calcium. The results offer evidence for two calcium transmembrane channels in insect visceral muscle.     

Identification of proctolin in the central nervous system of the horseshoe crab, Limulus polyphemus

A proctolin-like peptide was isolated from the prosomal CNS of the chelicerate arthropod, Limulus, and purified using size exclusion, ion exchange and high performance liquid chromatography. Coincident bioassay (cockroach hindgut) and radioimmunoassay were employed to identify fractions which contained proctolin-like material. Proctolin-like activity coeluted with synthetic proctolin with all three chromatographic techniques employed. When applied to either the Limulus heart or hindgut preparations, purified Limulus proctolin produced excitatory responses which were indistinguishable from those produced by the synthetic peptide. Purified samples of the Limulus proctolin-like peptide were subjected to Edman degradation and tandem mass spectrometry and the amino acid sequence of the Limulus peptide was determined to be identical to that of cockroach proctolin (H-Arg-Tyr-Leu-Pro-Thr-OH). The presence of proctolin in the Limulus CNS and its biological action on the isolated heart and hindgut suggest a physiological role for this peptide in the regulation of cardiac output and hindgut motility.     

Cockroach allatostatin-immunoreactive neurons and effects of cockroach allatostatin in earwigs

A monoclonal antibody to allatostatin I of the cockroach Diploptera punctata was used to demonstrate the presence of allatostatin-immunoreactive cells and fiber tracts in the neuroendocrine system of the earwig Euborellia annulipes. The corpora cardiaca cells were not immunoreactive, nor were the neurosecretory endings of fiber tracts from the brain to the corpora cardiaca. No immunoreactive material was detected in the corpus allatum, although the corpus allatum contained neurosecretory endings, and some cells of the brain, including medial and lateral protocerebral cells, showed immunoreactivity. In addition, the recurrent and esophageal nerves were allatostatin-positive. The last abdominal ganglion contained immunoreactive somata, and immunoreactive axons of the proctodeal nerve innervated the rectum, anterior intestine, and posterior midgut. We did not detect reactive endocrine cells in the midgut. Allatostatin I at concentrations of 10^–5 and 10^–7 M did not inhibit juvenile hormone biosynthesis by E. annulipes corpora allata in vitro. This was true for glands of low activity from 2-day females and brooding females, as well as for relatively high activity glands from 10-day females. In contrast, 10^–7 M allatostatin I significantly and reversibly decreased hindgut motility. Motility was decreased in hindguts of high endogenous motility from 2-day females and in those of relatively low activity from brooding females. These results support the notion that a primary function of allatostatin might be to reduce gut motility. Arch. Insect Biochem. Physiol. 38:155–165, 1998. © 1998 Wiley-Liss, Inc.     

The vagina muscles of the blood‐sucking insect Rhodnius prolixus as a model for exploring the physiological effects of proctolin

Proctolin is a neuroactive pentapeptide first isolated from the cockroach Periplaneta americana in which it has an excitatory effect on contractions on visceral muscles of the hindgut. Subsequently, proctolin is reported in a wide variety of invertebrates, and considerable efforts have been made to determine its mode of action. Its primary role appears to be that of a neuromodulator rather than a classical neurotransmitter, and it may also serve as a neurohormone, depending on the muscles examined. The present study identifies the vagina muscles of the blood‐sucking insect Rhodnius prolixus (Stål) as a proctolinergic system. Physiological doses of proctolin generate prolonged contractions that closely mimic the effects of motor nerve stimulation. This preparation is convenient and robust, warranting its use as an experimental system to further understand the role of proctolin in the regulation of muscle contractions in insects. Moreover, these muscles are innervated by an identifiable inhibitory component providing a means to investigate the interaction between proctolin excitation and neural inhibition.     

Neuropeptidergic control of the hindgut in the black-legged tick Ixodes scapularis

The hindgut, as a part of the tick excretory system, plays an important physiological role in maintaining homoeostases and waste elimination. Immunoreactive projections from the synganglion to the hindgut were found using antibodies against four different neuropeptides: FGLamide related allatostatin, myoinhibitory peptide, SIFamide, and orcokinin. The presence of FGLamide related allatostatin, myoinhibitory peptide and SIFamide in both synganglia (source) and hindgut (target organ) extracts was confirmed by MALDI-TOF. Tissue-specific PCR revealed the expression of four putative FGLamide related allatostatin receptors and an SIFamide receptor in the hindgut. An antibody against Ixodes scapularis SIFamide receptor detected immunoreactive spots in epithelial cells as well as the visceral muscles surrounding the rectal sac, while staining with the antibody against myoinhibitory peptide receptor 1 revealed that the immunoreactivity was only associated with the visceral muscles. In hindgut motility assays, SIFamide activated hindgut motility in a dose-dependent manner. None of other three neuropeptides (FGLamide related allatostatin, myoinhibitory peptide and orcokinin) activated hindgut motility when tested alone. Myoinhibitory peptide antagonised the SIFamide-stimulated hindgut mobility when it was tested in combination with SIFamide.     

Innervation of the foregut of the cockroach Leucophaea maderae and inhibition of spontaneous contractile activity by callatostatin neuropeptides

Abstract. The innervation of the gut of the cockroach Leucophaea madera (F.) has been studied by means of wholemount immunocytochemistry with antisera raised against Leu-callatostatin, a cockroach allatostatin homologue identified from neuropeptide isolation and gene studies in the blowfly Calliphora vomitoria. Leu-callatostatin-imunoreactive neurones in the brain, with axon trajectories in the stomatogastric nervous system, innervate the foregut and midgut. Neurones in the last abdominal ganglion supply the hindgut and the midgut via the proctodeal nerve. In addition to a rich callatostatin-immunoreactive nerve supply, the midgut, including the midgut caeca, contain numerous callatostatin-immunoreactive endocrine cells. Physiological studies show that the spontaneous contractile activities of the foregut, but not the hindgut, are inhibited by callatostatin neuropeptides. Leu-callatostatin 3 was the most potent of the range of Leu-and Met-callatostatins tested, with a dose-dependent response between 10^-13 and 10^-7 M. This is similar to the results obtained with the previously identified myoinhibitory peptide of L. maderae , leucomyosuppressin. However, this peptide, with a different type of structure to the allatostatins, inhibits both foregut and hindgut motility equally. Experiments with a series of analogues of the Met-callatostatins showed that the free acid (as opposed to the carboxyamidated peptide) and N-terminally truncated peptides were inactive. These morphological and physiological results are thought to be representative of the, as yet unidentified, naturally occurring allatostatin homologues of L. maderae. This family of peptides should be added to the increasing list of insect gut myoinhibitory substances.     

Structure of the pentapeptide proctolin, a proposed neurotransmitter in insects.

Proctolin, a myotropic substance with potent activity on the proctodeal (hindgut) muscles of the cockroach, $\text{Periplaneta americana}$ (L.), has been identified by the use of Edman degradation and dansylation techniques as Arg-Tyr-Leu-Pro-Thr. Synthesis of the pentapeptide having this sequence and exhibiting the properties of natural proctolin confirmed the structure. Threshold activity on proctodeal muscle occurs at about 10⁻⁹ M proctolin.     

Comparison of the myotropic activity of position-2 modified analogues of proctolin on the hindgut of Periplaneta americana and the oviduct of Locusta migratoria

The largest series of position-2 modified proctolin analogues to have been examined to date were tested for their ability to mimic the basal contraction induced by proctolin on hindgut of the cockroach, Periplaneta americana, and oviduct of the locust, Locusta migratoria. Twelve analogues of proctolin (Arg-Tyr-Leu-Pro-Thr), differing in the substituent (H, OMe, OEt, OPr, F, Cl, Br, I, NO(2), NH(2), N(3), Me) located at the para-position of the aromatic amino acid, caused dose-dependent contractions of both tissues at concentrations quite similar to proctolin. Seven showed greater or equal potency on the hindgut but, with one exception, they were less active on the oviduct than proctolin. The rank order of potency of the analogues depends on the tissue, lending more support to the notion that insects have more than one type of proctolin receptor. No relationship was observed between myoactivity and lipophilic, steric, electron donating or electron withdrawing properties of the substituents at the para-position of the aromatic amino acid. This may be the result of more than one sub-type of proctolin receptor on the specific tissue with differing structural requirements for optimum activity.     

Comparative actions of the neuropeptides leucopyrokinin and periplanetin CCI on the visceral muscle systems of the cockroaches Leucophaea maderae and Periplaneta americana

1. The effects of two structurally-related peptides, leucopyrokinin (LPK) and periplanetin CC-I (CCI), on contractile activities of visceral muscle systems were compared in the two cockroaches from which these peptides were originally isolated.2. LPK elicited consistent proctolin-like responses on the hindgut, foregut, oviduct and heart of the Madeira cockroach, Leucophaea maderae, with increases in both amplitude and frequency of contraction. CCI, on the other hand, elicited a mostly tonic response on these tissues.3. For the American cockroach, Periplaneta americana, the responses elicited by LPK and CCI were tonic in nature.4. With the exception of the response of the L. maderae hindgut and heart to LPK, threshold levels for either LPK or CCI on all other tissues of both roaches were considerably higher (10–100 times greater) than those for proctolin on the same tissues.5. The maximum response to any concentration of LPK or CCI on the foregut and oviduct of L. maderae and that on the foregut and hindgut of P. americana never reached more than 60% of the maximum contraction achieved with proctolin.     

Isolation and partial characterization of five myotropic peptides present in head extracts of the cockroach Leucophaea maderae

Five peptides were isolated by reverse-phase HPLC from head extracts of the cockroach Leucophaea maderae. Four of the peptides were inactivated by aminopeptidase M (APM). The inability of APM to digest the fifth peptide suggests a blocked NH2-terminus. Four of the peptides were inactivated by carboxypeptidase Y (CPY). The activity of the fraction which would have contained proctolin was decreased by about 20%. The complete deactivation of proctolin by CPY indicated that a second peptide, co-eluting with proctolin but refractory to CPY digestion, was responsible for 80% of the biological activity in that fraction. Concentrations of the peptides necessary to produce a threshold response from the isolated cockroach hindgut ranged from 0.009 to 0.083 head equivalents/ml.     

Isolation of proctolin,a myotropic peptide,from Periplaneta americana

The isolation of a myotropic substance, proctolin, associated with the innervation of the viscera of the cockroach, Periplaneta americana, is reported. Proctolin, previously described as a neurotransmitter or neurohormone, is a small basic peptide with an estimated molecular weight of 500 to 700. The proctodeal (hindgut) muscles of P. americana contract at threshold levels of about 0·5 ng/ml, equivalent to about 10⁻⁹ M proctolin. Approximately 180 μg proctolin were isolated from 125 kg of whole cockroaches. The isolated peptide was homogeneous on paper and thin-layer chromatography and on high-voltage paper electrophoresis at pH 3·5 and 6·4.     

Role of allatostatin‐like factors from the brain of Tenebrio molitor females

The effect of brain extract from females of freshly emerged Tenebrio molitor on ovary, oocyte development, total protein content of hemolymph, and ovary was studied in 4‐day‐old adult mealworm females. Injections of extracts of 2‐brain equivalents into intact (unligatured) Tenebrio females did not affect ovarian and oocyte development. Injections of ligated females, however, with 2‐brain equivalents on day 1 and 2 after adult emergence strongly inhibited ovarian growth and oocyte development. At day 4, ligated and injected females did not develop their ovaries and pre‐vitellogenic oocytes were not found. The changes in ovarian development correlated with an increase in the concentration of soluble proteins in the hemolymph as compared with the saline‐injected controls. Additionally, a strong reduction of total protein content in ovarian tissue was observed. Reverse phase HPLC separation of a methanolic brain extract of T. molitor females showed that fraction 5 has a similar retention time to synthetic cockroach allatostatin. Fraction 5 was eluted at 12.88 min, which was closest to the internal standard Dippu‐AST I, which eluted at 12.77 min. An ELISA of fraction 5 from the methanolic brain extract using antibodies against allatostatins Grybi‐AST A1 and Grybi‐AST B1 from cricket Gryllus bimaculatus showed that fraction 5 cross‐reacted with Grybi‐AST A1 antibodies. The cross‐reactivity was similar to the synthetic allatostatin from D. punctata, which was used as a positive control. These observations demonstrate a possible role for allatostatin‐like brain factor(s) in regulating the reproductive cycle of Tenebrio molitor. © 2009 Wiley Periodicals, Inc.     

Effects of starvation on death‐feigning in adult Eucryptorrhynchus brandti (Coleoptera: Curculionidae)

In insects, death‐feigning is an effective defence strategy. Eucryptorrhynchus brandti, a major borer pest in China, has a weak flight ability and exhibits obvious death‐feigning behaviour when disturbed. Despite a large number of studies of its biological and ecological properties as well as control methods, the death‐feigning behaviour has not been specifically described. In laboratory conditions, we recorded the survival rate under starvation and feeding conditions and evaluated the effect of starvation on the duration and occurrence of death‐feigning. In a continuous experiment, we examined variation in the death‐feigning duration every day over 7 day. Then, we evaluated the effects of starvation for 3, 6 and 9 day in a non‐continuous experiment and further observed variation in the death‐feigning intensity. We found that starvation significantly affected the survival rate. Survival time was significantly longer in the starvation group than in the feeding group, and females had longer survival times than males (female: 14 day, male: 8 day). In the continuous experiment, starved E. brandti had the longest duration of death‐feigning at 2 day, followed by a significant decrease. In the non‐continuous experiment, the duration and proportion of death‐feigning decreased significantly as the duration of starvation increased and were significantly lower than feeding. These observations suggest that starvation is a non‐negligible factor in the death‐feigning behaviour of E. brandti adults, facilitating the interpretation of future ecological and behavioural data of thanatosis.     

Structure function analysis of an arthropod peptide hormone: proctolin and synthetic analogues compared on the cockroach hindgut receptor

Proctolin is a pentapeptide (arg-tyr-leu-pro-thr) found in nervous tissues throughout the phylum Arthropoda. Initially described as a peptidergic neuromuscular transmitter, it now appears that proctolin is a major arthropod neurohormone modulating nervous activity, muscle tonus and contractile force. Structure-function studies with synthetic analogues demonstrate diverse peptides which retain agonistic activity, but few exhibit a high degree of affinity for the cockroach hindgut receptor compared with proctolin (Kdapp = 2 x 10(-8) M). High affinity agonists (Kdapp less than or equal to 10(-7) M) are limited to [phe2]-proctolin, [lys1]-proctolin and specific N-terminal additions. In this regard the hindgut receptor differs in its ligand specificity from that reported for the locust extensor tibia receptor. Using the analogue studies to predict sequences which may act as agonists, we have examined the known vertebrate peptide hormones for proctolin-like sequences. A possible relationship between vasoactive intestinal peptide, proctolin and erythrophore concentrating hormone is critically evaluated.     

Determination of allatostatin levels in relation to the gonadotropic cycle in the female of Blattella germanica (L.) (Dictyoptera, Blattellidae)

A polyclonal antibody against the allatostatin BLAST-3 (AGSDGRLYSFGL-NH₂) of the cockroach Blattella germanica (L.) (Dictyoptera, Blattellidae) has been raised and characterized, and an ELISA (enzyme-linked immunosorbent assay) for allatostatin quantification has been developed. Allatostatin contents in brain, midgut and haemolymph have been measured in females of B. germanica during the first gonadotropic cycle. Brain allatostatin content increases steadily from adult emergence to the formation of the first ootheca. The values range from 2 ng/brain on the day of adult emergence to 25 ng/brain when the insect forms the ootheca 8 days later. In the midgut, the pattern is similar but the values are about half those of the brain. Allatostatin concentrations in the haemolymph after HPLC separation are in the nanomolar range. The occurrence of allatostatins in the haemolymph suggests that these peptides can act through a humoral pathway, as well as via nerves. The allatostatin content of both brain and midgut are high while the female is transporting the ootheca, which suggests that these peptides could be related to the low metabolic status characterising the period of oothecal transport.     

Myotropic activity and immunolocalization of selected neuropeptides of the burying beetle Nicrophorus vespilloides (Coleoptera: Silphidae)

Burying beetles (Nicrophorus sp.) are necrophagous insects with developed parental care. Genome of Nicrophorus vespilloides has been recently sequenced, which makes them interesting model organism in behavioral ecology. However, we know very little about their physiology, including the functioning of their neuroendocrine system. In this study, one of the physiological activities of proctolin, myosuppressin (Nieve? MS), myoinhibitory peptide (Trica-MIP-5) and the short neuropeptide F (Nicve-sNPF) in N. vespilloides have been investigated. The tested neuropeptides were myoactive on N. vespilloides hindgut. After application of the proctolin increased hindgut contraction frequency was observed (EC50 value was 5.47 x 10-8 mol/L). The other tested neuropeptides led to inhibition of N. vespilloides hindgut contractions (Nicve-MS: IC50 = 5.20 x 10~5 mol/L;Trica-MIP-5: IC50 = 5.95 x 10-6 mol/L;Nicvc-sNPF: IC50 = 4.08 x 10-5 mol/L). Moreover, the tested neuropeptides were immunolocalized in the nervous system of N. vespilloides. Neurons containing sNPF and MIP in brain and ventral nerve cord (VNC) were identified. Proctolin-immunolabeled neurons only in VNC were observed. Moreover, MIP-immunolabeled varicosities and fibers in retrocerebral complex were observed. In addition, our results have been supplemented with alignments of amino acid sequences of these neuropeptides in beetle species. This alignment analysis clearly showed amino acid sequence similarities between neuropeptides. Moreover, this allowed to deduce amino acid sequence of N. vespilloides proctolin (RYLPTa), Nicve-MS (QDVDHVFLRFa) and six isoforms ofNicve-MIP (Nicve-MIP-1一 DWNRNLHSWa;Nicve-MIP-2—AWQNLQGGWa;Nicve-MIP-3—AWQNLQGGWa;Nicve-MlP-4—AWKNLNNAGWa;Nicve-MIP-5—SEWGNFRGSWa;Nicve-MIP-6— DPAWTNLKGIWa;and Nicve-sNPF—SGRSPSLRLRFa).     

Transgenic expression in tobacco of a poly-proctolin construct leading to production of the bioactive peptide

Short peptides can be expressed in plants using synthetic genes encoding multiple copies of the peptide spaced by dibasic endoproteolytic cleavage sites. A synthetic gene encoding an array of repeated copies of proctolin, a very well characterized insect myotropic peptide, spaced by Arg residues, was synthesized and expressed in tobacco plants. The successful production of bioactive proctolin from the precursor in transgenic plants was demonstrated by immunoblot, HPLC, mass spectrometry and a bioassay based on the contraction of isolated cockroach hindgut. These results suggest that in planta, as in animals and yeasts, endopeptidases of the serine proteases family may be involved in precursor processing.     

Structure, distribution, and biological activity of novel members of the allatostatin family in the crayfish Orconectes limosus.

In the central and peripheral nervous system of the crayfish, Orconectes limosus, neuropeptides immunoreactive to an antiserum against allatostatin I (= Dipstatin 7) of the cockroach Diploptera punctata have been detected by immunocytochemistry and a sensitive enzyme immunoassay. Abundant immunoreactivity occurs throughout the central nervous system in distinct interneurons and neurosecretory cells. The latter have terminals in well-known neurohemal organs, such as the sinus gland, the pericardial organs, and the perineural sheath of the ventral nerve cord. Nervous tissue extracts were separated by reverse-phase high-performance liquid chromatography and fractions were monitored in the enzyme immunoassay. Three of several immunopositive fractions have been purified and identified by mass spectroscopy and microsequencing as AGPYAFGL-NH2, SAGPYAFGL-NH2, and PRVYGFGL-NH2. The first peptide is identical to carcinustatin 8 previously identified in the crab Carcinus maenas. The others are novel and are designated orcostatin I and orcostatin II, respectively. All three peptides exert dramatic inhibitory effects on contractions of the crayfish hindgut. Carcinustatin 8 also inhibits induced contractions of the cockroach hindgut. Furthermore, this peptide reduces the cycle frequency of the pyloric rhythms generated by the stomatogastric nervous system of two decapod species in vitro. These crayfish allatostatin-like peptides are the first native crustacean peptides with demonstrated inhibitory actions on hindgut muscles and the pyloric rhythm of the stomatogastric ganglion.