Restricted specificity of a hyperglycaemic factor from the corpus cardiacum of the stick insect Carausius morosus

Extracts of the corpora cardiaca of the stick insect Carausius morosus elevate the haemolymph carbohydrate concentration in adult and 6th-instar larvae which are ligated behind the first pair of legs, but not in non-ligated (intact) insects. The increase in haemolymph sugars is due to trehalose elevation, is time dependent (with a maximal effect about 90–120 min after injection), and is dose dependent (needing 0.005 gland equivalents for a significant effect and a tenfold higher dose for a maximal response). The hyperglycaemic factor is localised entirely in the corpora cardiaca and appears to be specific to stick insects; corpora cardiaca extracts of two lepidopteran species (Acherontia atropos and Aglais urticae) and of Locusta migratoria have no effect, whereas corpora cardiaca extracts of the stick insects Cuniculina impigra and Sipyloidea sipylus have similar activity to those from C. morosus. This specificity is also shown when S. sipylus is used as the recipient. Synthetic adipokinetic hormone and red pigment concentrating hormone possess no hyperglycaemic activity in the stick-insect system. Two peaks of hyperglycaemic activity were obtained after column chromatography of corpora cardiaca extract of C. morosus on Sephadex G-25 and Sephadex LH-20. The factor seems to act via activation of fat-body glycogen phosphorylase, which, although 60% active in the control insects, is significantly increased to approx. 85% upon corpora cardiaca injection. However, the activation is demonstrated in ligated and intact insects. No significant decrease in the glycogen level of the fat body is observed after corpora cardiaca injection.     

Hormonal regulation of proline synthesis and glucose release in the fat body of the Colorado potato beetle, Leptinotarsa decemlineata

In the adult males of the Colorado potato beetle, Leptinotarsa decemlineata, corpora cardiaca extract injected in vivo gives rise to an increase in glucose and a decrease in alanine concentration of the haemolymph. The regulation of proline synthesis and glucose release in the fat body of the Colorado potato beetle was investigated further in vitro. Proline regulates its own synthesis by a feedback inhibition. Moreover, a factor present in extracts from the corpora cardiaca stimulates synthesis in the fat body in vitro. This effect was demonstrated with corpora cardiaca extracts from beetles, locusts and cokroaches. Also, synthetic adipokinetic hormone stimulates proline synthesis in the fat body of the Colorado beetle. In addition, a release of glucose from the fat body of the beetle could be evoked by the addition of locust and beetle corpora cardiaca extracts or synthetic adipokinetic hormone. The physiological significance of both effects is discussed.     

Diuresis or clearance: Is there a physiological role for the “diuretic hormone” of the desert beetle Onymacris?

Malpighian tubules of Namib Desert tenebrionid beetles of the genus Onymacris are strongly stimulated by homogenates of the corpora cardiaca. The corpora cardiaca of other arid-adapted tenebrionids also contain diuretic material. Biogenic amines, which could be released during the preparation of corpora cardiaca extracts, do not stimulate fluid secretion in tubules of Onymacris rugatipennis. The diuretic factor in corpora cardiaca extracts is stable to boiling and to incubation with pronase. HPLC separation of the corpora cardiaca of O. rugatipennis gives a single region with diuretic activity in both secretory and electrical bioassays. Diuretic activity can not be detected in the haemolymph of Onymacris, and injection of corpora cardiaca extracts into the beetles does not cause diuresis. Simultaneous injection of corpora cardiaca and the dye amaranth shows that the most of the dye transported by the Malpighian tubules moves anteriorly into the midgut, indicating fluid recycling by this route. The most likely function for this “diuretic hormone” is clearance of metabolic wastes from the haemolymph.     

An active principle from the corpora cardiaca,corpora allata and suboesophageal ganglion of the locust,inducing egg diapause in Bombyx mori

The activity of the substance(s) which are contained in the cephalic endocrine organs of the locust which induce egg diapause in Bombyx mori was examined by implantation and injection of saline extracts of these organs. Extracts from the median and lateral neurosecretory parts of the locust brain were not effective in inducing egg diapause. Extracts of the corpora cardiaca, corpora allata, and suboesophageal ganglion of the locust induced diapause eggs in Bombyx pharate adults from which the suboesophageal ganglion had been removed. The first two extracts could induce egg diapause even in isolated abdomens of pharate adults of Bombyx. In the locust corpora cardiaca, the activity was present only in the glandular lobe and not in the nervous region. This activity decreased when the nervi corporis cardiaci I and II and of nervi corporis allati I were cut. Allatectomy also brought about a decrease in the activity in the glandular lobe which could not be restored by the injection of juvenile hormone. The activity in the corpora allata was enhanced slightly by the disconnection though not significantly.From these results, it is assumed that the corpora cardiaca, corpora allata and suboesophageal ganglion of the locust contain and active principle(s) capable of inducing egg diapause in Bombyx mori. The nervous connections between the brain, corpora cardiaca, and corpora allata are essential for the accumulation of the active substance(s) in the glandular lobes of the corpora cardiaca.     

Hormonal basis of adult eclosion in the gypsy moth (Lepidoptera: Lymantriidae)

Eclosion hormone was found to control the stereotypic adult eclosion behaviour of Lymantria dispar, the gypsy moth. A bioassay for hormonal activity was developed utilizing pharate adult females, and comparisons were made with the Manduca wing assay. The distribution of eclosion hormone activity was confined to the central nervous system tissues including the protocerebrum, corpora allata/corpora cardiaca complex, thoracic and the last abdominal ganglion. Haemolymph ecdysteroid titres were determined daily throughout pupal-adult development, and the peak activity period was found in 3–4 day pupae. Eclosion hormone activity in the brain and corpora allata/corpora cardiaca complex started to increase when the ecdysteroid titre dropped to background levels. Eclosion hormone in the brain peaked in the pharate adult stage, was released in the haemolymph 1 h prior to eclosion, which coincides with the depletion of activity in the retrocerebral complex, and fell to undetectable levels after the adult emerged.     

Hormonal control of lipid synthesis in the fat body of the adult female tsetse fly, Glossina morsitans

Aqueous extracts of brain, thoracic ganglion or corpora cardiaca of female Glossina morsitans were shown to contain a substance which inhibited the synthesis of lipid from l[U-¹⁴C] leucine by fat cells incubated in vitro. The highest concentration of this substance was found in the corpora cardiaca; approximately 1 × 10^?6 gland pairs μl^?1 were required for maximum inhibition. At concentrations greater than 1 × 10^?4 gland pairs μl^?1 the lipid synthesis inhibiting factor (hereafter referred to as the LSIF) was inactivated by the presence of a substance which could be removed by gel filtration. The concentration of LSIF in the corpora cardiaca and midbrain varied throughout the reproductive cycle of the female. Net release of LSIF from the midbrain occurred between the 2nd and 7th day of the 9-day reproductive cycle. Net release from the corpora cardiaca began on day 5 and continued until the end of the interlarval period on day 9. Results are consistent with the hypothesis that LSIF is synthesised mainly in the medial neurosecretory cells of the midbrain whereas the corpora cardiaca are the site of storage and release into the haemolymph. LSIF was present in midbrain and corpora cardiaca extracts from male G. morsitans but at lower concentrations than in females. No variation in LSIF concentration could be correlated with the feeding cycle. LSIF activity was not detected in fresh haemolymph but was found at high concentration in boiled haemolymph, suggesting the presence of an inhibitor which was inactivated at high temperature. Preliminary investigations into the nature of LSIF have shown it to be inactivated by proteolytic enzymes and to be recoverable in a single peak from a Sephadex G15 column.Results support the view that LSIF is a peptide hormone which, in conjunction with an inhibitor, controls the lipid synthetic ability of the fat cells of the adult female tsetse fly throughout the reproductive cycle.     

The post-prandial rest in Locusta migratoria nymphs and its hormonal regulation

Doppler radar actographs have been used to measure the fall in locomotor activity following feeding in mid-fifth instar nymphs of Locusta migratoria. Filling the crops of the insects with agar via a cannula, reduced activity in a similar manner. Haemolymph from recently-fed donors injected into insects which had been deprived of food, likewise reduced locomotor activity compared with haemolymph from deprived donors. Injections of nutrients were ineffective, but homogenates of the storage lobes of the copora cardiaca from food-deprived donors proved effective compared with similar homogenates from newly-fed donors. It is suggested that neurosecretion released from the corpora cardiaca, known to occur following crop-filling, leads to a reduction in locomotor activity.     

Re-evaluation of the role of corpora cardiaca in calling and oviposition behaviour of giant silk moths

Re-investigation of the role of the corpora cardiaca in the reproductive behaviour of the giant silkmoths, Hyalophora cecropia and Antheraea polyphemus, showed that this pair of glands plays no essential role, either in “calling” behaviour by virgin females or in increased oviposition due to mating. Removal of corpora cardiaca-corpora allata complexes, either from diapausing pupae or from freshly eclosed adult females, had no effect on the calling behaviour or on its timing in either species. Moreover after mating, these operated females laid eggs in the typical mated oviposition pattern. Furthermore, females in which there was only a nervous connection between the brain and the abdomen but no haemolymph circulation called normally and oviposited after mating.Although the corpora cardiaca were not essential for calling behaviour, hormogenates of corpora cardiaca-corpora allata complexes and blood from calling or ovipositing females induced a typical “calling” response in 30–60% of the isolated virgin H. cecropia abdomens tested. This activity was not species-specific as it was also found in Manduca sexta, but the restriction of major activity to corpora cardiaca extracts and haemolymph suggested that a neurosecretory factor may modulate the normal neural control of calling behaviour.     

Isolation, physiological characterization, release and sequence elucidation of a hypertrehalosaemic neuropeptide from the corpus cardiacum of the stick insect, Sipyloidea sipylus

ABSTRACT. The corpora cardiaca of the stick insect, Sipyloidea sipylus Westwood, contain peptidic material which elevates blood lipids in migratory locusts, blood carbohydrates in American cockroaches, and activates glycogen phosphorylase in the fat body of the cockroach in a time- and dose-dependent manner. The active principle is found in appreciable amounts only in the corpora cardiaca; slight hyperlipaemia is caused by extracts made from corpora allata and abdominal ganglia, whereas brain, suboesophageal and thoracic ganglia are not active. The adipokinetic activity is already present in corpora cardiaca from second instar (first day) nymphs. The factor retains its adipokinetic activity after boiling for up to 1 h. Conspecific injections of extracts from corpora cardiaca of S.sipylus cause hypertrehalosaemia in ligated stick insects and activate glycogen phosphorylase in non-ligated S.sipylus. After incubation of corpora cardiaca in vitro in saline with high concentrations of potassium and calcium, one fraction with adipokinetic (in locusts) and hypertrehalosaemic (in stick insects) activity can be isolated from the medium by RP-HPLC. Fractionation of a methanolic extract of corpora cardiaca from S.sipylus by RP-HPLC shows that active compounds are confined to apparently three absorbance peaks. The material of the highest absorbance peak was purified to homogeneity by RP-HPLC, and its amino acid composition determined after acid hydrolysis with HCl and with methanesulfonic acid revealed the residues Asx, Thr₍₃₎, Glx, Pro, Gly, Leu, Phe and Trp. The primary structure of this hypertrehalosaemic factor is assigned as a blocked decapeptide, pGlu-Leu-Thr-Phe-Thr-Pro-Asn-Trp-Gly-Thr-NH₂, from its FAB spectrum and metastable scans of its FAB spectrum. The structure is confirmed by synthesis; the synthetic and natural peptide co-chromatograph, and the synthetic peptide elevates blood carbohydrates in ligated stick insects and activates fat body phosphorylase in non-ligated S.sipylus.     

Effect of endocrine glands on the unfixed total haemocyte counts of the bug Halys dentata

Changes in total haemocyte counts in relation to the endocrine glands have been studied in Halys dentata. Unfixed total haemocyte counts were taken after extirpation and implantation of three endocrine structures. It is concluded that haemocyte count decreases after the extirpation of the corpora allata in the early life span of adults, while an abrupt increase was noted after the 7th day. When both the corpora allata and corpora cardiaca are extirpated, the count was significantly decreased throughout the life span of adults. However, when only the corpora cardiaca were removed there was no significant variation up to the 7th day, but later on the count gradually decreased. The implantation of brain, corpora cardiaca and allata is followed by a significant rise in the haemocyte count throughout the life span. Total haemocyte count also fluctuated after the implantation of corpora allata and brain, separately. After implantation of corpora cardiaca of one-day-old adult insects there was no variation in the total haemocyte count while the corpora cardiaca of 6-day-old adults when implanted in one-day-old adults cause a significant rise in the total haemocyte count. Therefore, it is concluded that the corpora cardiaca influences the total haemocyte count after a critical period.     

Ultrastructure of retrocerebral complex of the earwig, Euborellia annulipes, and rôle of aorta as a neurohaemal organ

The ultrastructure of the retrocerebral endocrine-aortal complex of the earwig, Euborellia annulipes has been studied. The space between the inner and outer stromal layers of the aorta is occupied by numerous axon terminals and pre-terminals containing large electron dense granules (NS-I) of approximately 100 to 220 nm and a few axon terminals having small granules (NS-II) of approximately 40 to 90 nm; the former appear to belong to medial neurosecretory A-cells, and the latter to the B-cells of the brain. The corpora cardiaca consist of intrinsic cells with mitochondria and multivesicular bodies. Granules of type NS-II and NS-III are observed in the axon terminals and pre-terminals in the corpora cardiaca. The NS-II are identical to those found in the aorta and are probably the secretions of the lateral B-cells. Granules of type NS-III are 40 to 120 nm and electron dense, and are intrinsic in origin. Similar granules occur in the intrinsic cells of the corpora cardiaca. E M studies have confirmed the rôle of the aorta as a neurohaemal organ for the medial neurosecretory cells, and the corpora cardiaca for the lateral neurosecretory cells of the brain. The corpora cardiaca also act as a reservoir for the intrinsic secretion. The corpus allatum is a solid body consisting of parenchymal cells with prominent nuclei, mitochondria, and endoplasmic reticulum. In between its cells are occasional glial cells and also neurosecretory as well as non-neurosecretory axons. The gland is devoid of A-cell NSM.     

The glycogenolytic effect of the corpus cardiacum on the cockroach nerve cord

Aqueous extracts of corpora cardiaca cause glycogenolysis in the ventral nerve cord of the cockroach. The duration of the glycogenolytic response is shorter than in fat body and requires a higher concentration of extract for its initiation. The evidence suggests that glycogenolysis is accelerated in the presence of extract because of the activation of phosphorylase caused by an increase in the level of cyclic AMP. The activation of nerve cord phosphorylase by the cardiaca factor in vitro is completely inhibited by 1×10^?4 M 5-hydroxytryptamine.     

Système endocrine et physiologie de la diapause imaginale chez le criquet égyptien, Anacridium aegyptium

The Egyptian locust, Anacridium aegyptium, has four protocerebral neurosecretory centres: the A to B neurosecretory cells of the pars intercerebralis (the A cells are rich in fuchsinophil material and the B cells are devoid of fuchsinophil neurosecretion), the voluminous C neurosecretory cells poor in neurosecretion, and the median sub-ocellar neurosecretory cells.From September to the beginning of January, imaginal diapause is characterized by an accumulation of the median neurosecretion in the pars intercerebralis-corpora cardiaca system, by small corpora allata, and, in the female, by a stop in oöcyte development although the male's sexual activity is still not altered. Allatectomy suppresses neither the male's sexual behaviour nor its fecundity. From January, the increase of the photoperiod causes a release of the median neurosecretion in both sexes, an increase of the volume of the corpora allata, and breaks ovarian diapause.In autumn, the implantation of the male's or female's corpora allata of Anacridium does not stimulate ovarian growth of diapausing females. On the contrary, the implantation of corpora allata or of pars intercerebralis or of corpora cardiaca of Locusta migratoria migratorioides (locust without diapause) causes ovarian development of the diapausing females of Anacridium. Thus, in the two sexes of the Egyptian locust, the corpora allata are inactive during the female ovarian diapause. The imaginal diapause of Anacridium affects both sexes (stocking of median neurosecretion, arrest of the corpora allata). If diapause does not seem to affect the male's development, it is because its sexual activity is free from the pars intercerebralis and corpora allata.The corpora allata of Anacridium show a sexual dimorphism in the active adult: they are smaller in the male and have more mitosis in the female. An explanation of this dimorphism is advanced.     

Chromatographic separation of some corpora cardiaca peptides that influence fat cell activity in female Glossina morsitans

Experiments involving thin layer chromatography (TLC) or high performance liquid chromatography (HPLC) were undertaken in an attempt to separate lipid synthesis inhibitor and lipid mobilising activity in corpora cardiaca extracts from female Glossina morsitans. TLC separation was inefficient yielding <1% recovery of hormone. Hormone activity was found in two peaks after reversed phase HPLC in acetonitrile or methanol gradients with approx. 10% recovery of original activity in each peak. Active fractions contained both lipid synthesis inhibitor and lipid mobilising activity indicating that both these effects are caused by the same hormones, and that there may be at least two such hormones present in the corpora cardiaca of female tsetse flies.     

Adipokinetic hormone controls lipid metabolism in adults and carbohydrate metabolism in larvae of Manduca sexta

The peptide hormone which controls activation of fat body glycogen phosphorylase in starving larvae of Manduca sexta was isolated from larval corpora cardiaca and sequenced by FAB tandem mass spectrometry. It was found to be identical with Manduca AKH. This, together with earlier observations, demonstrates that in M. sexta AKH controls glycogen phosphorylase activation in starving larvae while in adults it controls lipid mobilization during flight. Larval corpora cardiaca contain about 10 times less AKH than the corpora cardiaca of adults. The corpora cardiaca of M. sexta appear to contain only one AKH.     

Variations de la tendance au vol soutenu du criquet Pélerin Schistocerca gregaria après implantations de corpora cardiaca

An attempt has been made to determine the influence of the corpora cardiaca on sustained flight tendency shown by Schistocerca gregaria male imagos reared in dense groups or in isolation, taking into consideration the presence or absence of the corpora allata. Corpora cardiaca either whole or in part (glandular or neurohaemal lobe) from either good or poor flyers were inserted into the abdomen of either good or poor flyers. A small amount of extra corpora cardiaca or neurohaemal lobe from good flyers favours sustained flight. A large amount from good or poor flyers inhibits flight. Allatectomized recipients react like intact animals, but locusts isolated for several generations scarcely react. Glandular lobes are without effect and so are corpora cardiaca taken from good fliers about 15 days after their connexions with the brain have been cut. Organs taken from good fliers just after a long flight are also of little effect. It is concluded that factors are elaborated by the pars intercerebralis, then stored and activated in the neurohaemal part of the corpora cardiaca: these organs alone do not control flight tendency.     

Hormone stimulated lipolysis and proline synthesis in the fat body of the adult tsetse fly, Glossina morsitans

G. morsitans fat cells incubated in vitro with l-[U-¹⁴C]-leucine incorporated the radiolabel, mainly into triglycerides. Aqueous extracts of corpora cardiaca, midbrain, or thoracic ganglion stimulated the release of radiolabelled material from prelabelled fat cells in vitro. Corpora cardiaca extracts were the most active, approx. 1 × 10^?3 gland pairs/μl elicited the maximal response. At concentrations above 1 × 10^?3 gland pairs/μl the activity of corpora cardiaca extracts was inhibited by a substance which could be removed by gel filtration. The stimulatory factor in nervous-tissue extracts was destroyed by proteolytic enzymes and was recoverable in a single peak by Sephadex G15 gel filtration. Results suggest that it is a peptide hormone produced mainly by the median neurosecretory cells of the midbrain with the corpora cardiaca being the site of storage and release. No hormone was detectable in fresh haemolymph, but it was found at high concentration in boiled haemolymph, implying the presence of a heat labile inhibitor.Under the in vitro conditions used the hormone stimulated the synthesis of proline from alanine and the hydrolysis of triglycerides to free fatty acids. The probable functions of the hormone are to stimulate proline synthesis in response to demand for flight and/or to mobilise lipid for larval nutrition. The relative importance of these apparent functions in vivo could not be determined.     

NADPH diaphorase and nitric oxide synthase in the corpus cardiacum-corpus allatum of the cockroach Diploptera punctata

Juvenile hormone synthesis by corpora allata is regulated partly by allatostatin containing nerves from the brain that innervate the corpora cardiaca and the corpora allata. To investigate whether NO also participates in the regulation of juvenile hormone synthesis, antibody against NO synthase and the histochemical test for NADPH diaphorase activity, a marker for NO synthase, were applied to the corpora cardiaca-corpora allata of Diploptera punctata. Strong NADPH diaphorase activity occurred in corpus allatum cells but not in nerve fibers in the corpora allata or corpora cardiaca. In contrast, NO immunoreactivity occurred in nerves in the corpora cardiaca but not within the corpora allata. NO and allatostatin were not colocalized. NO synthase and NADPH diaphorase activity were localized in similar areas of the subesophageal ganglion and cells in the pars intercerebralis of the brain. Positive correlation of the quantity of NADPH diaphorase activity with juvenile hormone synthesis during the gonadotrophic cycle and lack of such correlation in subesophageal ganglia suggest that NADPH diaphorase activity reflects the necessity of NADPH in the pathway of juvenile hormone synthesis. These data suggest that NO is unlikely to play a significant role in the regulation of the corpora allata.     

Release from the brain and acquisition by the corpus cardiacum of a neurohormone in vitro

Hindgut stimulating neurohormone (HSN) was synthesized and stored by cultured brains of the cockroach, Leucophaea maderae. The presence of either HSN or cultured corpora cardiaca in the medium caused the brains to release their accumulated HSN. The corpora cardiaca were able to sequester HSN from the medium when the concentration was above a threshold level. Thus, the corpus cardiacum may provide an homeostatic mechanism for maintaining physiological levels of neurohormone.     

Evidence for a crustacean hyperglycemic hormone-like molecule in the nervous system of the stick insect,Carausius morosus

Summary Histological sections of the brain, suboesophageal ganglion, and the corpora cardiaca/corpora allata complex were examined for the presence of crustacean hyperglycemic hormone-like immunoreactive material. With the use of an antiserum directed against the hyperglycemic hormone of Carcinus maenas, immunofluorescence was found in the median portion of the pars intercerebralis, and the corpora cardiaca. Extracts of corpora cardiaca were examined by radioimmunoassay for competitive binding to the antiserum; one pair of corpora cardiaca contains at least 7 pg crustacean hyperglycemic hormone-like material.