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.     

Early immunohistochemical detection of somatostatin-like and methionine-enkephablin-like neuropeptides in the brain of the migratory locust embryo

The two groups of neurosecretory cells producing neuropeptides related to somatostatin (SRIF) and methionine-enkephalin (met-enkephalin), previously high-lighted in the brain of adult migratory locusts, were detected by immunofluorescent techniques during the embryonic development of these insects. The earliest detection of these neurosecretory products occurred firstly in the terminal arborizations, then in the fibres, and finally in the perikarya. SRIF-like material is present in the corpora cardiaca already four days before hatching, i.e. at two-thirds of embryonic life, whereas immunoreactivity can be detected only after hatching in the perikarya located in the pars intercerebralis. The synthesis of met-enkephalin-like neuropeptide starts in the four cells of this system at least two days before hatching as shown by the immunofluorescence in the terminal arborizations along the tractus I to the corpora cardiaca. SRIF-like and met-enkephalin-like neurosecretory products are synthesized and carried to their release areas whilst the formation of brain structures and of the corpora cardiaca has not yet been completed.     

Experimental evidence for a neuroendocrine control of ecdysone biosynthesis in adult females of Locusta migratoria

The considerable increase in ecdysteroid concentration which occurs in normal Locusta ovaries at the end of each cycle of oöcyte maturation is prevented if the median neurosecretory cells of the pars intercerebralis are cauterized, or if the corpora cardiaca are excised 24 hr before the onset of ecdysone synthesis in normal females. Implantation of additional brain-corpora cardiaca complexes into young vitellogenic females advances the time of ecdysone synthesis by some 12 hr. Oöcyte growth itself is not affected in these different types of experiments.It is inferred from the data of the present study that ecdysone synthesis in the follicle cell epithelium of maturing Locusta ovaries is stimulated by a neurohormone produced in the median neurosecretory cells of the pars intercerebralis and secreted into the blood via the corpora cardiaca.     

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.     

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.     

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.     

Restricted occurrence of Locusta migratoria ovary maturing parsin in the brain-corpora cardiaca complex of various insect species

Ovary maturing parsin (OMP) is a gonadotrophic molecule previously isolated from the neurosecretory lobes of the corpora cardiaca of Locusta migratoria (acridian Orthoptera). A polyclonal antiserum directed against the two biologically active domains of the L. migratoria (Lom) OMP was used to investigate the occurrence of Lom OMP-like substances in brain-corpora cardiaca complexes of other insect species. Using immunohistochemistry, specimens of 40 different insect species belonging to 13 insect orders were tested. The Lom OMP-like substance was strictly limited to specimens of insect species belonging to the Acridae. It occurred in non-basophilic cells of the pars intercerebralis that project to the corpora cardiaca, as in Locusta. Although the antiserum only detected Lom OMP-like material in the Acridae, it is possible that related molecules exist in other insects. The antiserum may be very specific for domains of the Lom OMP molecule that have not been highly conserved during evolution or possibly these domains are not accessible to the antiserum in other insects.     

Identification of neuronal pathways between the stomatogastric nervous system and the retrocerebral complex of the cockroach Periplaneta americana (L.)

Summary The neuronal pathways connecting the stomatogastric nervous system with the retrocerebral complex of the cockroach, Periplaneta americana, were investigated by means of axonal cobalt chloride iontophoresis. Somata in the hypocerebral ganglion and in the nervus recurrens sending their axons to different parts of the stomatogastric nervous system were traced. Some axons in the oesophageal nerve arise from large perikarya in the anterior part of the pars intercerebralis and pass via the NCCI to the corpora cardiaca and the oesophageal nerve. They form a profuse dendritic tree in the protocerebrum. Fibers of the NCC I and NCC II as well as the NCA I and NCA II enter the stomatogastric nervous system via the hypocerebral ganglion.     

L'action exercée par l'appareil endocrine sur les phases tardives de l'ovogenèse chez Locusta migratoria

Most studies dealing with the endocrine control of oogenesis are focused on vitellogenesis, but the later events of oogenesis: vitelline membrane formation and choriogenesis have received less atention. In Locusta migratoria, the corpora allata evidently control vitellogenesis, but seem to have no bearing upon the formation of the vitelline membrane or the chorion. If the insects are deprived of their CA at the time when the oocyte length is around 3.5 to 4 mm, (normal length at egg laying: 6.5 mm) vitelline membrane formation and the chorion production are unaffected. In the same species, the electrocoagulation of the pars intercerebralis or excision of corpora cardiaca disturb oogenesis; vitelline membrane material is synthesized and secreted, but the primary granules fail to join each other and to transform into vitelline membrane and the production of chorionic material is disturbed.The rER of the follicle cell seems quite active but the substance elaborated accumulates in the Golgi saccules, and therefore the cytoplasm contains only very few secretory granules. The implantation of supernumerary pars intercerebralis and corpora cardiaca into immature females induces precocious deposition of the vitelline membrane which is complete in 5.0 mm oocytes (instead of 5.6 to 6.0 mm) and chorion formation is completed in 5.5 mm oocytes (instead of 6.0 to 6.3 mm). Ecdysone is secreted in the ovaries at the end of oogenesis. We tested the result of injecting ecdysone to immature females. It results in hastening oocyte growth during 24 hr, but this accelerated growth is followed by degeneration.     

Sequencing and biological effects of an adipokinetic/hypertrehalosemic peptide in the stick insect, Baculum extradentatum

The corpora cardiaca of the Vietnamese stick insect, Baculum extradentatum, contain a member of the adipokinetic hormone/red pigment-concentrating hormone/hypertrehalosemic hormone (AKH/RPCH/HrTH) family of peptides whose sequence is identical to that originally described for the Indian stick insect, Carausius morosus. This decapeptide, Carmo-HrTH-II (pELTFTPNWGTa), has both hypertrehalosemic and cardioacceleratory activity in B. extradentatum, and hyperlipaemic activity in locusts. Reversed-phase high performance liquid chromatography (RP-HPLC) of corpora cardiaca extract followed by MALDI-TOF MS/MS also revealed a novel modification of a second peptide in B. extradentatum: the tryptophan residue at position 8 is post-translationally modified to kynurenine.     

Neurosecretory system of the earwig Labedura riparia, and the rôle of the aorta as a neurohaemal organ

The neurosecretory system of Labedura riparia has been described from sections and whole mounts using a variety of techniques. The pars intercerebralis contains two clusters of medial neurosecretory cells (MNC), each cluster consisting of 8 to 10 A-cells and occasional B-cells. The lateral sides of the brain have a few B-cells. The axons of the median neurosecretory cells terminate in the cephalic aorta (AO), whereas the axons of the lateral neurosecretory cells (LNC) terminate in the corpora cardiaca (CC). It appears that the neurosecretory material (NSM) elaborated in the MNC is stored in the cephalic aorta and that elaborated in the LNC is stored in the corpora cardiaca, which are two oval or elongate bodies composed of large chromophobe and small chromophil cells. Posteriorly there is the oval or elongate corpus allatum (CA) attached to the CC by thick nerves. The CA consists of one cell type only. Both CC and CA contain no A-cell neurosecretory material. It has been suggested that the neurosecretory system of L. riparia is composed of two complexes. One is formed by the medial neurosecretory cells for which the aorta functions as a neurohaemal organ, and the other is formed by lateral neurosecretory cells-lateral neurosecretory pathways-nervi corporis cardiaci-II in which the corpora cardiaca function as a neurohaemal organ.     

Controle neuroendocrine du fonctionnement du corpus allatum chez Rhodnius prolixus

Cauterization of the dorsal portion of the protocerebrum effected immediately after cessation of feeding in adult females blocks vitellogenesis. The growth of the oöcytes can be re-established by the implantation of corpora allata or by the application of juvenile hormone analogue, and it is suggested that the protocerebrum has a corpus allatum stimulating influence. The corpus allatum deprived of all its cerebral nervous connexions by cutting the aorta just behind the corpora cardiaca induces abundant vitellogenesis. Females with denervated corpora allata or pars intercerebralis cauterized 24 hr after a meal show a phase of vitellogenesis more active than that in normal female adults. This suggests the existence of a cerebral inhibitory centre: its activity through a nervous or endocrine path is discussed.     

Putative regulatory mechanism of prothoracicotropic hormone (PTTH) secretion in the American cockroach, <Emphasis Type="Italic">Periplaneta americana</Emphasis> as inferred from co-localization of Rab8, PTTH,and protein kinase C in neurosecretory cells

Small GTPases of the Rab family act as essential regulators of vesicle transport pathways, including the exocytosis of neurohormones. These processes are not well-understood in insects. To address the physiological function of Rab proteins and their phosphorylation in insect neurosecretion, Rab8-like, prothoracicotropic hormone (PTTH)-like, and protein kinase C (PKC)-like immunohistochemical reactivities (-ir) were investigated in the brain of the American cockroach, Periplaneta americana. All the antibodies tested reacted with neurons in the pars intercerebralis, corpora cardiaca, and nervi corporis allati I. Double-labeling experiments demonstrated that all PTTH-ir were colocalized with Rab8-ir and PKC-ir in the pars intercerebralis, although exclusive reactivity was present to antisera against Rab8 or PKC. These findings support the notion that Rab8-like antigen is phosphorylated by PKC, and that this phosphorylation is involved in the axonal transport and secretion of PTTH in this species. This work was supported by a Grant-in-Aid for Scientific Research (B) 1838043, (C) 20580053, and Global Center of Education and Research Program (19GCOE01) from the Japan Society for the Promotion of Science.     

ACTIVATION OF THE CORPORA ALLATA IN RELATION TO OVARIAN MATURATION IN THE SEASONAL FORMS OF THE BUTTERFLY, POLYGONIA C-AUREUM L.

In Polygonia c-aureum , there are two seasonal forms, viz. , the summer form and the autumn form. Previous experiments (E ndo , 1970) showed that the corpora allata of the summer form accelerate the maturation of ovarian follicles soon after imaginal ecdysis. On the other hand, the corpora allata of the autumn form do not stimulate ovarian maturation during a period of 2 to 3 weeks after the emergence.
In the summer form (S) as well as in the autumn form (A), the corpora allata remained in an inactive state for about 15 days after emergence when they had been isolated microsurgically from the brain and the corpora cardiaca during the larval period. Further, when separation of the brain into the right and left hemispheres or ablation of the medial neurosecretory group cells of the pars intercerebralis had been carried out on S-pupae of 28 hr after pupation or of earlier ages, they developed into autumn form in respect to wing pattern and their corpora allata did not stimulate ovarian maturation until 2 to 3 weeks after emergence. On the other hand, when the above operations had been performed 34 hr after the pupation or of later ages, they developed into summer form in respect to wing pattern and ovarian maturation was evident soon after the emergence. In these cases, stimulation of the corpora allata is closely connected with the development of seasonal-forms of wing pattern.
From these experiments, it is clear that the medial neurosecretory group cells of the pars intercerebralis in S-insects stimulate the corpora allata about 30 hr after pupation by way of the nervi corporis cardiaci and the activated corpora allata promote ovarian maturation throughout adult life. In A-insects, on the other hand, the medial neurosecretory group cells of the brain are inactive and fail to activate the corpora allata which in turn have no influence on ovarian maturation.     

Rupture de la diapause ovarienne d'Anacridium aegyptium par stimulation électrique des cellules neurosécrétrices médianes de la pars intercerebralis

Oögenesis and the physiological activity of the corpora allata were studied in adult females of the Egyptian locust (Anacridium aegyptium), in ovarian diapause, after electrical stimulation in vivo of the pars intercerebralis. This stimulation provokes (1) a decrease in the quantity of fuchsinophilic material present in the median neurosecretory cell bodies and in the internal cardiac tract, (2) an increase in the physiological activity of the corpora allata (measured by its chromatropic effect on larvae of Locusta), and (3) rupture of the ovarian diapause (advance of maturation of the oöcytes and oviposition by 5 months, and initiation of the ovarian cycle).In the control animals, the same electrical stimulations of various regions of the central nervous system (tritocerebrum, first ganglion of the abdominal cord) have no effect on these phenomena.In allatectomized females, electrical stimulations of the pars intercerebralis are followed by a slight growth of oöcytes, without a deposit of yellow vitellus. The diapause is not broken. Section of the allatocardiac nerves or rupture of the allatocardiac and allato-suboesophageal nervous connexions do not change the physiological state of the corpora allata. In the case of females in which the corpora allata have been disconnected, electrical stimulations of the pars intercerebralis succeed in activating the corpora allata and breaking the ovarian diapause. The aggregate of these results confirms that in locusts the control of the brain over the physiological activity of the corpora allata is above all neuroendocrine.     

Circadiane änderungen im endokrinen system der Honigbiene, Apis mellifera, effekt von haft und Ocellenblendung

By PAF-staining it can be shown how the amount of neurosecretion in the pars intercerebralis (PI) and in the corpora cardiaca (CC) changes during the course of the day. Simultaneously, the density of nuclei in the corpora allata (CA) was measured. The secretion in the PI and CC is minimal at midday. With this the relatively small changes in the density of nuclei in the CA are negatively correlated. When normal animals are kept in a daylight cage, the content of secretion in the PI and CC does not decrease during the morning as it does in free flying foragers. It one places bees with black varnished ocelli in this cage, the amount of secretion increases very much, and some animals show an extremely high density of nuclei in the CA. With the help of a simple model, the results are discussed as an ocellary controlling influence on humoral regulation of motor activity.     

A comparison of the neuropeptides from the retrocerebral complex of adult male and female Manduca sexta using MALDI-TOF mass spectrometry

The occurrence of neuropeptides in the retrocerebral complexes of adult male and females of the tobacco hawkmoth, Manduca sexta, was investigated using matrix-assisted laser desorption time of flight (MALDI-TOF) mass spectrometry (MS), post source decay (PSD) and collision-induced dissociation (CID) MS/MS. From fractions of methanol extracts of corpora cardiaca (CC)/corpora allata (CA), separated by reversed-phase high performance liquid chromatography (RP-HPLC), a total of 11 mass ions were assigned to known peptides from M. sexta. These peptides were adipokinetic hormone (AKH), FLRFamides I, II and III, crustacean cardioactive peptide (CCAP), cardioactive peptide 2b (CAP(2b)), three myoinhibitory peptides, corazonin, and M. sexta allatostatin (Manse-AS). A further six masses were in agreement with Y/FXFGLamide allatostatins identified from other Lepidoptera. The sequence identities of FLRFamide I and AKH were confirmed using post source decay analysis. Fragmentation by collision-induced dissociation MS/MS identified an extended AKH peptide. The apparent differences in the peptides present in male and female retrocerebral complexes are most likely quantitative rather than sex specific.     

The influence of some chemosterilants and caffeine on the neuroendocrine system of adult male Ephestia kühniella

Injection of caffeine into adult male Ephestia kühniella induced a reduction in the amount of neurosecretory material in the resorcin fuchsin stainable (A-) cells of the pars intercerebralis. Both hemel (hexamethyl melamine) and tepa (tris (1-aziridinyl) phosphine oxide) treatments resulted in an increase in stainable neurosecretory products in the cytoplasm of the A-cells. The increase after hemel treatment was largely a result of increased synthesis of neurosecretory material as indicated by increased nuclear volume and nuclear-cytoplasmic ratio. No changes were induced by hemel in the corpora cardiaca and allata of the adult male E.kühniella. This disruption in neuroendocrine function is believed to be involved in the observed mating aberrations (permanent copulation and sterile matings) by adult males after hemel treatment.     

Fonction chromatrope de la pars intercerebralis chez l'acridien Oedipoda coerulescens

The median neurosecretory cells of the protocerebrum of fifth instar larvae and 1- or 2-day-old adults of Oedipoda coerulescens produced more fuchsinophilic material when reared on dark backgrounds than on pale ones. In the latter case, the neurosecretory cell bodies were almost completely devoid of neurosecretion. The same differences were found in the anterior lobes of the corpora cardiaca. Individuals implanted with pars intercerebralis from donors reared on a dark background showed dark pigmentation no matter what their own background colour (and conversely). Black or red pigmentation appeared on absorbent grounds whereas a pale one was produced on reflecting grounds with high levels of incident light predominantly between 576 and 588 mμ. The significance of these results is discussed. A possible scheme for the interaction of environmental factors and pigmentation is suggested.     

Studies on the neuroendocrine system of the mangohopper, Idiocerus atkinsoni Leth. (Homoptera : Jassidae)

The neuroendocrine system of the homopteran, Idiocerus atkinsoni has been described, employing a neurosecretory stain. Two groups of medial neurosecretory cells (NSC) of one tinctorial type are present in the pars intercerebralis of the brain. Processes believed to be dendrites of the neurosecretory neurons lie superficially underneath the neurilemma and enclose neurosecretory material (NSM). Both the nervi corporis cardiaci, NCCI and NCCII, are branched. The branches of the former join to form an oesophageal nerve that runs on the oesophageal surface and terminates on the midgut, and those of the latter, innervate the oesophageal dilator muscles. Besides being present in the dendrite-like processes and NSC, the NSM is also seen in the NCCI, anterior part of the aorta and oesophageal nerve but not in the NCCII, corpora cardiaca (CC) and the corpus allatum (CA). It is suggested that the release of NSM into the circulation in this insect occurs through two main routes: the dendrites and the aorta. The evolution of the aorta as an exclusive neurohaemal organ in Hemiptera is discussed.