Ultrastructure of the corpus cardiacum and corpus allatum of the house cricket Acheta domesticus

Summary The ultrastructure of the corpus cardiacum (CC) and corpus allatum (CA) of the house cricket, Acheta domesticus, is described. Axon profiles within the CC contain neurosecretory granules 160–350 nm in diameter which are indistinguishable from those found in type I neurosecretory cells of the pars intercerebralis and in the nervus corporis cardiaci I. The CC itself contains two cell types: intrinsic neurosecretory cells and glial cells. Intrinsic NSC cytoplasm contains Golgi bodies and electron dense neurosecretory granules 160–350 nm in diameter. Synaptoid configurations with 20–50 nm diameter electron lucent vesicles were observed within axon profiles of the CC. The structure of the CA is relatively uniform with one cell type predominating. Typical CA cells possess large nucleoli, active Golgi complexes, numerous mitochondria, and occassional microtubules. Groups of dark staining cells scattered throughout the CA of some animals were interpreted as evidence of cellular death.This work was done while JTB was supported by USPHS Training Grant HD-0266 from NICHDI wish to express my thanks to Dr. Richard A. Cloney for sharing his expertise in electron microscopy     

Immunocytochemical differentiation between adipokinetic hormone (AKH)-like peptides in neurons and glandular cells in the corpus cardiacum of Locusta migratoria and Periplaneta americana with C-terminal and N-terminal specific antisera to AKH

Summary An immunocytochemical method was used to differentiate between immunoreactive substances in glandular cells in the corpora cardiaca (CC) and in certain cerebral neurons in 2 insect species, Locusta migratoria migratorioides and Periplaneta americana. The staining properties of antisera raised to different parts of the decapeptide adipokinetic hormone (AKH) were compared and their specificity was determined by preabsorption with AKH and related peptides. Antibodies raised to the N-terminal part of AKH (serum 433) and the central and C-terminal part (serum 241) were found to have different staining properties.In the CC of the locust both antisera show a strong immunoreactivity with glandular cells, we therefore suggest that at least one of the compounds revealed is AKH. Some of the glandular cells in the locust and large numbers of glandular cells in the CC of the cockroach are revealed by the N-terminal specific antiserum. On the other hand, neurons in the central nervous system are revealed only by the C-terminal specific antiserum. The possible identity of the various substances revealed by these two antisera is discussed.     

Regulation of phospholipase A(2) activity in cockroach (Periplaneta americana) fat body by hypertrehalosemic hormone: evidence for the participation of protein kinase C

Phospholipase A₂ (PLA₂) associated with the membrane fraction of trophocytes from Periplaneta americana fat body increases by as much as 100% when the cells are incubated with hypertrehalosemic hormone (HTH-II). Activation with HTH-II is approximately halved by inclusion of the PKC inhibitor sphingosine in the incubation medium. Because activation of PLA₂ by HTH-II is blocked by the GDP analogue GDP-β-S, and the unactivated enzyme is activated by the GTP analogue GTP-γ-S it is likely that a G protein is involved in activation of the enzyme. Activation of PLA₂ was also achieved by treating the trophocytes with the synthetic diacylglycerol 1-oleoyl-2-acetylglycerol in the presence of thapsigargin. This supports the view that protein kinase C is also involved in the activation process.     

The metabolic neuropeptides of the corpus cardiacum from the potato beetle and the American cockroach are identical

Two neuropeptides with adipokinetic activity in Locusta migratoria and hypertrehalosaemic activity in Periplaneta americana were purified by high performance liquid chromatography from the corpus cardiacum of the Colorado potato beetle, Leptinotarsa decemlineata. The sequences of both peptides, designated Led-CC-I and Led-CC-II, were determined by pulsed-liquid phase sequencing employing Edman degradation after deblocking enzymatically the N-terminal pyroglutamate residue. The C-terminal of both peptides were blocked and neither molecule was cleaved by carboxypeptidase. Both peptides were found to be octapeptides; Led-CC-I has the primary structure pGlu-Val-Asn-Phe-Ser-Pro-Asn-Trp-NH₂, and Led-CC-II has the primary sequence pGlu-Leu-Thr-Phe-Thr-Pro-Asn-Trp-NH₂. These structures are identical to the two hypertrehalosaemic hormones from the American cockroach. Preliminary experiments show that the synthetic peptides are apparently involved in the control of amino acid metabolism during flight of the potato beetle.     

Serotonin-immunoreactive neurones in the brain of Locusta migratoria innervating the corpus cardiacum

Summary The serotoninergic innervation of the corpus cardiacum (CC) of Locusta migratoria was investigated using two antisera against serotonin. A dense network of immunoreactive nerve fibres was present in the storage lobe of the CC. Immunopositive fibres only sporadically crossed the border between the storage lobe and the glandular lobe of the CC. Immunopositive fibres entered the storage lobe of the CC via the nervus corporis cardiaci I (NCCI); NCCII was immunonegative. Unilateral retrograde fillings of the NCCI with the fluorescent tracer Lucifer yellow, followed by antiserotonin immunocytochemistry, revealed about 20 double-labelled neurones in the anterior part of the pars intercerebralis. The double-labelled neurones were scattered between fluorescent non-immunoreactive neurones. Additionally, 5–7 neurones labelled only with Lucifer yellow were found at the ventrolateral side of the tritocerebrum. No immunopositive neurones were observed in the hypocerebral ganglion. Immunopositive fibres from neurones in the frontal ganglion ran via the recurrent nerve and the neuropile of the hypocerebral ganglion into the paired oesophageal nerve. At most, a few immunopositive nerve fibres occurred in the cardiostomatogastric nerves II, which connect the storage lobe of the CC with the paired oesophageal nerve at the caudal end of the hypocerebral ganglion.     

The mechanosensory apparatus of the femoral tactile spine of the cockroach,Periplaneta americana

Summary Tactile spines are large cuticular sense organs that appear to provide insects with a sense of touch which is spatially coarse but of great sensitivity. Cockroach legs have a number of these spines on each leg and a particularly prominent spine on the end of each femur, the femoral tactile spine. The ease of recording afferent activity from this spine during mechanical stimulation has made it one of the most thoroughly studied insect mechanoreceptors and yet it has never been examined by electron microscopy.We report here the results of an examination of the femoral tactile spine by both scanning and transmission electron microscopy, as well as by light microscopy. The spine is shown to be innervated by a single sensory bipolar neuron with its soma located in the base of the spine. A canal through the wall of the spine leads to the outside and emerges just above the junction between the base of the spine and its articulating socket membrane. The sensory dendrite of the neuron passes from the soma through this canal and forms a modified ciliary sensory ending with the typical dendritic sheath and dense tubular body that is characteristic of insect mechanosensory cuticular sensilla. The tubular body is embedded in a cuticular terminal plug which closes the exterior end of the canal but appears to be fastened to the spine by a very flexible ring of cuticle. This plug is connected to the socket membrane by a specialized socket attachment which presumably serves to move the plug relative to the wall of the spine during movement of the spine within the socket. The morphology of this sensillum is discussed in terms of the possible ways in which it is stimulated by movements of the spine and also in light of the dynamic behaviour of the receptor which is now very well described.Supported by the Canadian Medical Research Council. The authors gratefully acknowledge the expert technical assistance of Sita Prasad and Rodney Gramlich     

Histological and cytological studies on the fat body of the cockroach Nauphoeta cinerea during the first reproductive cycle

Summary The central fat body of the ovoviviparous cockroach Nauphoeta cinerea was studied during the first reproductive cycle of the female by means of light microscopy, autoradiography and electron microscopy. Comparative studies in larval stages were also undertaken. The fat body of Nauphoeta contains a large amount of lipid droplets and the remaining cytoplasm is very scarce. The cytological cyclicity of the fat body is consistent with the known biochemical rhythms of vitellogenin production. The proteosynthetic apparatus appears about 3 days after imaginal ecdysis, along with vitellogenin. The ribosomal endoplasmic reticulum (RER) shows a tremendous increase by the 7th day of the first cycle. The most active period of vitellogenin production lasts from day 7 to day 12. The proteosynthetic apparatus then returns to an inactive stage and disappears. This inactive condition lasts to the end of the gestation period. The autoradiographic results are consistent with the cytological features.Work carried out under the scientific direction of Prof. M. Lüscher of the University of Bern and supported in part by a grant from the Swiss National Science Foundation (No 3. 633.71).     

The innervation of the corpus cardiacum of Locusta migratoria: A neuroanatomical study with the use of Lucifer yellow

Summary Neural connections of the corpus cardiacum (CC) in the African locust, Locusta migratoria, were labelled with the fluorescent tracer Lucifer yellow. (1) Unilateral anterograde labelling of the nervus corporis cardiaci I revealed fluorescent fibres in the storage lobe of the CC (CCS). Some fluorescent fibres in the CCS closely approached the ipsilateral border of the glandular lobes of the CC (CCG). Fluorescent fibres also projected into the neuropile of the hypocerebral ganglion via the ipsilateral nervi cardiostomatogastrici I and II, and from there into the oesophageal nerves. (2) Unilateral anterograde labelling of the nervus corporis cardiaci II revealed fluorescent fibres in the CCS and in the ipsilateral CCG. Fluorescent fibres also projected via the ipsilateral nervus corporis allati I into the corpus allatum. (3) Unilateral retrograde labelling of the nervus corporis allati I revealed a distinct fluorescent nerve tract that runs through the CCS and into the nervus corporis cardiaci II. The tract arises from about eight cell bodies in the brain at the rostroventral side of the ipsilateral calyx of the mushroom body. (4) Labelling of the recurrent nerve revealed fluorescent fibres and some fluorescent cell bodies in the hypocerebral ganglion and, via the nervi cardiostomatogastrici I and II, also in the CCS. Fluorescent fibres were also present in the oesophageal nerves.     

Activation of fat body glycogen phosphorylase in Locusta migratoria by corpus cardiacum extract and synthetic adipokinetic hormone

Between 10 and 20 per cent of the total glycogen phosphorylase in the fat body of mature Locusta migratoria of both sexes is in the active form. Injection of an aqueous corpus cardiacum (CC) extract results in a rapid activation: within 2 min the level of active phosphorylase is significantly increased and full activation is reached within 10 to 20 min. As little as 0.002 CC gland equivalents stimulate fat body glycogen phosphorylase significantly and maximum activation is obtained with 0.05 CC gland equivalents. From experiments with known quantities of injected synthetic adipokinetic hormone (SAKH), it appears that this hormone cannot account for all the activation. This is supported by results obtained when extracts of carefully isolated storage lobes are injected; at the dose used here these have no adipokinetic activity, but activate fat body phosphorylase. Furthermore, when locusts are ‘stressed’ by rotation, although no adipokinetic hormone is released, an activation of phosphorylase occurs. Starvation causes also an increase in the active form of the enzyme. The fat body receptor sites of the locust recognise also the crustacean red pigment concentrating hormone (RPCH), whose structure closely resembles that of the locust adipokinetic hormone, leading to activation of the phosphorylase. However, RPCH is about 2.5–5 times less potent than SAKH. Crude CC extracts of a stick insect (Carausius morosus), a cockroach (Periplaneta americana) and the tobacco hornworm (Manduca sexta) activate locust fat body phosphorylase, although this last extract has no effect on lipid elevation. On the other hand, CC extracts of the death's head hawk moth (Acherontia atropos) and purified crustacean hyperglycaemic hormone from a crayfish (Orconectes limosus) have no effect.     

Metabolism of juvenile hormone in cultures of ovaries and fat body in the cockroachperiplaneta Americana

Summary The time course of juvenile hormone (JH) metabolism is examined in cultures ofPeriplaneta americana fat body and ovaries in medium containingManduca sexta carrier protein or cockroach hemolymph. In the absence ofM. sexta carrier protein or cockroach hemolymph, both tissues extensively catabolize exogenous [³H]JH in the medium. Addition of the carrier protein or hemolymph to the culture system prevents the hydrolysis of the hormone in the medium. Within the tissues JH is degraded whether or not carrier protein or hemolymph is present which suggests that the protective role of these molecules is exclusively extracellular. Incubation of [³H]JH with medium preconditioned with tissue results in destruction of the hormone. This suggests that the fat body secretes esterases into the medium. In contrast, the ovarioles hydrolyze the hormone by means of cell-associated enzyme. The relationship of these phenomena to insect development is discussed. This work supported by NSF Grant PCM 76-02229 and University of Kansas Biomedical Sciences Grant RR-07037.     

The ocellus of the cockroach,Periplaneta americana (Blattariae)

Summary The ocelli of Periplaneta americana were studied by light and electron microscopy. The view that the ocellus of the cockroach represents a degenerated structure can no longer be supported. All organelles necessary for function are present.The club-shaped retinular cells lie homogeneously distributed in the cupule of the ocellus. Rhabdoms are seen as sickle-, y-, x-or star-shaped structures with up to six cells in formation. Cells were found which had formed two rhabdomeres.The mass of cell organelles lies in the cytoplasm between the cell nucleus and the rhabdom. Smooth endoplasmic reticulum is wound into a spindle formation of considerable size at the origin of the axon in some cells. A cylindrical body in which 10–40 microtubules are packed, as yet unknown in insect retinular cells, is described.The receptory area of the ocellus terminates in a tapetum which contains granules, soluble in alcohol. The axon bundles of the retinular cells run through the tapetum and immediately thereafter make synaptic contact with dendrites of the ocellar nerve cells, while still within the ocellus.The authors are indebted to Mrs. Margaret Weber-Wood for her linguistic assistance     

Immunoreactive material resembling vertebrate neuropeptides and neurophysins in the brain,suboesophageal ganglion,corpus cardiacum and corpus allatum of the dictyopteran Periplaneta americana L.

Summary The peroxidase-antiperoxidase technique (Vandesande and Dierickx 1976) with antibodies raised against several vertebrate neuropeptides and neurophysins, was applied] to 4-m Paraplast-embedded serial sections of in situ fixed brains and adjacent suboesophageal ganglion (SOG), corpora cardiaca (CC) and corpora allata (CA) of the blattarian insect Periplaneta americana L. Substances immunologically related to bovine neurophysin I (NPI) and II (NPII), synthetic arginine vasopressin (AVP) and synthetic oxytocin (OT) were found to be differentially distributed in the central nervous system. The differences among all four antigens demonstrated became clearly evident by immunohistochemical double-staining procedures (Vandesande 1983); no overlapping was observed. The same double-staining technique revealed that these vertebrate-type substances occur in other neurosecretory cells and axons than those containing CRF- and ACTH-like material as reported earlier (Verhaert et al. 1984).     

Ultrastructural enzyme-cytochemical study of the intrinsic glandular cells in the corpus cardiacum of Locusta migratoria: relation to the secretory and endocytotic pathways,and to the lysosomal system

Summary Ultrastructural aspects of the secretory and the endocytotic pathways and the lysosomal system of corpus cardiacum glandular cells (CCG cells) of migratory locusts were studied using morphological, marker enzyme, immunocytochemical and tracer techniques. It is concluded that (1) the distribution of marker enzymes of trans Golgi cisternae and trans Golgi network (TGN) in locust CCG cells corresponds to that in most non-stimulated vertebrate secretory cell types; (2) the acid phosphatase-positive TGN in CCG cells is involved in sorting and packaging of secretory material and lysosomal enzymes; (3) these latter substances are produced continuously; (4) at the same time, superfluous secretory granules and other old cell organelles are degraded; (5) the remarkable endocytotic activity in the cell bodies and the minor endocytotic activity in cell processes are coupled mainly to constitutive uptake of nutritional and/or regulatory (macro)molecules, rather than to exocytosis; (6) plasma membrane recycling occurs mainly by direct fusion of tubular endosomal structures with the plasma membrane and little traffic passes the Golgi/TGN; and (7) so-called cytosomes arise mainly from autophagocytotic vacuoles and represent a special kind of complex secondary lysosomes involved in the final degradation of endogenous (cell organelles) and exogenous material.     

Modulation of flight by the giant interneurons of the cockroach

In this paper, I have examined the behavioral functions of feedback loops between the cockroach (Periplaneta americana) giant interneurons (GIs) and the flight thoracic rhythm generator.

Distribution of glutamate decarboxylase-like immunoreactivity in the sixth abdominal ganglion of the cockroach Periplaneta americana

Summary An antiserum against glutamate decarboxylase (GAD) of the rat brain was used to locate GAD activity in sections of the nervous system of the cockroach, Periplaneta americana. The sixth abdominal ganglion was chosen because electrophysiological evidence suggests the presence of GABAergic inhibitory synapses in the cereal-giant interneuron system. Groups of somata and numerous fibres and tracts were positively labelled by the GAD antiserum. A posterior group of labelled somata could be identified close to the entry of the cereal nerves. A line of somata clusters lay along a ventro-lateral furrow. Another discrete row of GAD-like cells was located dorso-laterally. Some small cells among the dorsal unpaired neurons were labelled. A small central group appeared under these cells. An abundance of GAD-like processes and transversal tracts were found within the neuropile. The different systems of GABAergic inhibitors in the ganglion are discussed; in particular we show that the fibres of cereal nerve X are not labelled. This demonstrates that the latter act on the giant fibres via interneurons. We suggest that the group that sends axons into the overlapping region between the cereal nerve and the giant fibre could be the inhibitory interneurons involved in this system.     

Co-localization of the adipokinetic hormones I and II in the same glandular cells and in the same secretory granules of corpus cardiacum of Locusta migratoria and Schistocerca gregaria

Summary The immunocytochemical reactivity of the glandular cells of the corpus cardiacum (CCG-cells) of Locusta migratoria and Schistocerca gregaria was investigated at the electron-microscopic level, using the protein A-gold method, with three antisera against fragments of the adipokinetic hormones AKH I and AKH II. This combination of antisera permitted discrimination between anti-AKH I and anti-AKH II immunoreactivity. Fixation in a mixture of 2% glutaraldehyde and 2% formaldehyde, in combination with low-temperature embedding in Lowicryl K₄M, produced the highest and most consistent selective immunogold labelling of the secretory and ergastoplasmic granules. All secretory granules in all CCG-cells investigated possessed a distinct anti-AKH I-immunopositive reaction, whereas most secretory granules showed a weaker anti-AKH II immunoreaction. Ergastoplasmic granules reacted similar to the secretory granules. The average immunolabelling of the secretory granules was higher in the processes than in the cell bodies of the CCG-cells. The results in Schistocerca gregaria were essentially similar to those in Locusta migratoria. It is concluded that (i) the individual CCG-cells synthesize AKH I as well as AKH II; (ii) these hormones coexist in the same ergastoplasmic and secretory granules; and (iii) these granules contain a higher content of AKH I than AKH II.     

Duplication of a peripheral sensory neuron in the cockroach Periplaneta americana

Summary We have recently examined the electrophysiology and ultrastructure of approximately 100 tactile spines from the metathoracic legs of adult cockroaches. In only one animal the single sensory neuron that innervates the spine was replaced with a pair of apparently identical neurons which we believe were both functional. As far as we are aware this is the first reported study of unprovoked duplication in a peripherally-located insect sensory neuron.Supported by the Canadian Medical Research Council and the Alberta Heritage Foundation for Medical Research     

Electroantennogram of the American cockroach: effect of oxygen and an electrical model

1. With a view to clarifying the role of oxygen in the olfactory reception of insects, the intact antenna of the male American cockroach (Periplaneta americana) was studied under normal conditions and during reversible anoxia, external or tracheal, using an electroantennogram (EAG) elicited by a sex pheromone stimulation. As a first step, the anatomical and electrical characteristics of the antenna were investigated. 2. Based on the microanatomical study, a cockroach antenna was characterized by structural parameters reflecting the haemolymph and gas exchange in the antenna. Valves in the wall of a haemolymphatic vessel were discovered. 3. The resting DC background voltage (DCBV) and the EAG were continuously recorded and proved to be more strongly affected by tracheal anoxia than by anoxia from the outside. 4. A minimal electrical model of the antenna based on the Thurm-Kaissling-De Kramer equivalent circuit of a sensillum was shown to be valid to explain the origin of the DCBV and EAG as well as their changes after oxygen cutoff and resumption. 5. Two formal opposing processes, excitation and desensitization, probably related to the receptor mechanisms, have been used to interpret the kinetics of the EAG and the effect of anoxia on EAG parameters. The desensitization is thought to be more sensitive to oxygen lack than the excitation.