The formation of intercellular junctions in insect stem cell progeny (cockroach intestinal epithelium)

Summary The stages in the development of intercellular junctions have been followed in the mesenteric caecal cells of the cockroach midgut, where two types of mature cell, the columnar and the secretory, exist. Nests of undifferentiated replacement cells occur at intervals along the basal lamina, consisting of central, dividing cells and peripheral semi-lunar cells; the former act as proliferative stem cells to give rise to either pre-columnar or pre-secretory cells. The semi-lunar cells are pre-columnar and produce an attenuated process which gradually projects up to the luminal surface, producing microvilli and a dense extracellular substance en route. Intercellular gap junctions appear between these maturing columnar cell borders first, while septate junctions differentiate later; these are assembled from two different sets of intramembranous particle which become organized into either plaques or rows in parallel alignment, possibly mediated by actin filaments and microtubules. The pre-secretory cells, which are much fewer in number, remain associated only with the basal lamina and never reach the lumen; they develop into one of three distinct mature secretory cell types which release their secretory product in different ways. Offprint requests to: N.J. Lane     

Actin filaments: the main components of the scolopale in insect sensilla

Summary Two types of insect sensilla, mechanosensitive scolopidia and thermo-/hygrosensitive poreless sensilla contain a scolopale, which consists of numerous microtubules embedded in bundles of filaments (7–10 nm in diameter). The bundles are readily seen in the electron microscope in cryofixed (high-pressure freezing and rapid injection) and substituted samples. The filaments can be identified as actin filaments by using fluorescent phalloidins. Both electron microscopy and Triton-extraction exeriments reveal mechanical linkage between the main components in both types of sensilla. Since myosin appears to be absent in the scolopale, the actin filaments are unlikely to be involved in any contraction mechanism; these filaments more probably provide mechanical stability. The functional properties of the scolopale are discussed.     

Intercellular junctions in the corpora cardiaca of locusts

Summary The intercellular junctions in the corpora cardiaca of the locusts Schistocerca gregaria and Locusta migratoria were investigated by transmission electron microscopy. In the glandular lobes, complexes consisting of scalariform junctions and associated mitochondria, comparable to those previously observed in ion transporting epithelia, are formed between gland cells, and more rarely between gland cells and the neurons innervating them. Their structure and abundance are apparently unaffected by the stage of development or by the various experimental conditions employed. In the neural lobe, scalariform junctions form between glial cells and show close association with the endoplasmic reticulum. Gap junctions are present among glandular, neural and glial elements, and are formed between cells of the same type and of different types. Contacts resembling punctate tight junctions are widely distributed in the gland, but would be unlikely to form a barrier to diffusion. Septate junctions are formed exclusively between glial cells.     

Cell specific DNA-labelling in the repairing blood-brain barrier of the insect Periplaneta americana

Summary This study uses a recently developed technique for preserving the ultrastructure of cells in the insect CNS during immunohistochemical processing for 5-bromo-2-deoxyuridine incorporation into newly synthesised DNA. The results allow us to identify the proliferating cell calsses in the regenerating blood-brain barrier. High resistance barrier cells do not label with the antibody but sheath cells clearly do. Intermediate cell types appearing during repair are identified. It is hypothesised that these cells generate matrix molecules for neural lamella repair and may represent transitional forms as invasive blood cells transdifferentiate into functional sheath cells.     

Structural,immunocytochemical and initial biochemical characterization of NAOH-extracted gap junctions from an insect,Heliothis virescens

Subcellular fractions enriched in gap junctions with an ultrastructure similar to those in intact insect tissue have been obtained by extracting crude membranes from the tobacco budworm Heliothis virescens (Lepidoptera: Noctuidae) with 2.5 mM NaOH. n-Octyl--d-glucopyranoside (OG) was used to further purify integral membrane proteins in the NaOH-extracted fractions. A polyclonal antibody (R16) is described that specifically labels nonextracted and NaOH-extracted gap junctions in cell fractions by electron microscope immunocytochemistry. R16 immunostaining of sectioned Heliothis testis at the light-microscope level yields a pattern of immunoreactivity consistent with the distribution of gap junctions in the tissue. R16 identifies a 40-kDa protein as a candidate gap junction protein on immunoblots of crude membrane, NaOH-extracted and NaOH/OG-extracted fractions.     

Tropomyosin is co-localized with the actin filaments of the scolopale in insect sensilla

Summary Immuno-electron microscopy confirms that the scolopale, a characteristically prominent cytoskeletal element of insect scolopidia, is composed mainly of actin filaments. Immunohistochemistry reveals that these filaments are co-localized with tropomyosin. Myosin S1-decoration shows that their polarity is unidirectional. Antibodies to -actinin do not bind within the scolopale. The association of these actin filaments with tropomyosin in the absence of myosin, together with their uniform polarity, strongly suggests that, in the scolopale, they have a stabilizing rather than contractile function. Filament elasticity would appear to be important for stimulation. The degree of elasticity may well be governed by the extent of tropomyosin binding.     

Isolation and characterization of gap junctions from Drosophila melanogaster

Summary A procedure has been developed to isolate gap junction-enriched subcellular fractions from Drosophila. Crude membranes from larval homogenates were extracted with 1% N-lauroyl sarcosine in 6 M urea and the gap junctions were collected by centrifugation. The major proteins were separated by SDS PAGE and purified by electro-elution. Electron microscopy revealed structurally pleiomorphic gap junctions in the fractions which included (1) conventional, 16–18 nm-wide septalaminar, (2) collapsed, 13–15 nm-wide pentalaminar, (3) split, and (4) aggregated forms. The fractions contained five major proteins with apparent molecular weights of 18, 26, 36, 52 and 54 kD. Evidence based on (1) the degradation and aggregation behavior of the major proteins following electro-elution and reelectrophoresis, (2) immunological cross-reactivities by affinity-purified antibodies against the major proteins on immunoblots, and (3) immunofluorescent staining of presumptive gap junctions in Drosophila imaginal discs at the light-microscopic level and immunogold staining of purified gap junctions at the electron-microscopic level suggests that the major proteins are interrelated and of gap-junction origin.     

Gap junctions between the follicle cells and the oocyte during oogenesis in an insect,Tribolium destructor/Coleoptera

Summary Oocyte-follicle cell gap junctions inTribolium occur in all oogenetic stages studied. During early previtellogenesis the junctions are found exclusively between lateral membranes of oocyte microvilli and the membrane of prefollicle cells. In late previtellogenesis and vitellogenesis the junctions are located between the tips of oocyte microvilli and the flat membranes of the follicle cells. During previtellogenesis gap junctions are infrequent, whereas in the phase of yolk accumulation their number increases considerably, exceeding 17 junctions/m² of the follicle cell membrane. It could be shown by microinjection of a fluorescent dye that gap junctions are in a functional state during vitellogenesis. Possible roles of heterologous gap junctions in oogenesis are discussed.     

Octopamine-like immunoreactivity in the dorsal unpaired median (DUM) neurons innervating the accessory gland of the male cockroach Periplaneta americana

The musculature of the mushroom-shaped accessory gland receives innervation from trunks 5C1 of the phallic nerves, which arise from the posterior part of the terminal abdominal ganglion of the male cockroach Periplaneta americana. Anterograde cobalt filling through trunks 5C1 with the subsequent precipitating procedure has shown the fine innervation of the accessory gland. By retrograde cobalt filling through the same trunks, different types of cells have been mapped in the terminal abdominal ganglion. About 25 dorsal unpaired median (DUM) neurons have been identified among them. About 36 octopamine-like immunoreactive DUM neurons with large somata have been characterized in whole-mount preparations of the terminal abdominal ganglion. The combination of the cobalt-filling technique with immunohistochemical mapping of cells suggests an octopaminergic innervation of the musculature of the accessory gland by DUM neurons.     

Unusual features of intercellular junctions in the larvacean Oikopleura dioica

Summary In the pelagic larvacean Oikopleura dioica, the epithelium lining the alimentary tract consists of ciliated and unciliated cell types. The ciliated cells also exhibit an apical border of long microvilli. Between the microvilli, the cellular membrane often projects deeply down into the cytoplasm; the membranes of these invaginations and those of apicolateral interdigitations may be associated with one another by tight junctions. Some of these junctions may be autocellular. The tight junctions are seen by freeze-fracture to be very simple in construction, composed of a single row of intramembranous particles, which may be fused into a P-face ridge. There is a dense cytoplasmic fuzz associated with these tight junctions which may extend into adjoining zonula adhaerens-like regions. The invaginations of the apical membranes are, in addition, associated by gap junctions which may also be autocellular. More conventional homocellular and heterocellular tight and gap junctions occur along the lateral borders of ciliated cells and between ciliated and unciliated cells. These gap junctions possess a reduced intercellular cleft and typical P-face connexons arranged in macular plaques, with complementary E-face pits. Both cell types exhibit extensive stacks of basal and lateral interdigitations. The tight junctions found here are unusual in that they are associated with a dense cytoplasmic fuzz which is normally more characteristic of zonulae adhaerentes.     

Submicroscopic characterization of proctolin-like immunoreactivity in the nervous system of the cockroach Periplaneta americana L.

Summary Proctolin-like immunoreactivity (PLI) was found in different parts of the arthropod central nervous system and in nerve fibers of muscles. In order to examine whether this PLI is related to a uniform type of secretory vesicle, hindgut musculature and frontal and hypocerebral ganglia were examined with the immunogold technique. PLI occurs exclusively within membran-bounded secretory granules. Neither granular ER nor Golgi stacks show PLI. In some cases close relationships between PLI-bearing granules and lysosomes were observed. In presynaptic areas, PLI-reactive granules are associated with numerous clear synaptic vesicles and restricted to an area distinctly separate from the presynaptic membrane. Three types of granules were found, differing in diameter and electron density: (1) dense, 80 nm; (2) dense, 150 nm; (3) low density, 150 nm. The results demonstrate that: (1) the PLI of the produced peptide occurs shortly after its separation from the Golgi stack; (2) the occurrence of PLI in three different granule types could be the morphological expression of the common occurrence of proctolin with other neuroactive substances. However, a possible cross-reactivity with other, hitherto unknown substances must be considered as well.     

Monoclonal antibody immunohistochemistry in the American cockroach identifies a novel neuropeptidergic system similar to,but distinct from this insect's (FM)RFamide-like system

A monoclonal antibody to peptidergic neurons in the neuroendocrine system of the Colorado potato beetle immunohistochemically labels neuropeptide-like substances throughout the cephalic neurosecretory system of the American cockroach, Periplaneta americana. The dictyopteran antigen shows a histological distribution similar to that of the neuropeptide-like material which we have described earlier using (FM)RFamide specific antibodies. It was conclusively demonstrated, particularly by means of a convenient double labelling procedure, that the (FM)RFamide- and the coleopteran neuropeptide-like antigens are not localized in the same neuronal structures, although both neurochemicals are in close vicinity to one another. The relative abundance of the immunoreactive products in neurons throughout the cockroach nervous system and retrocerebral complex, in addition to its apparently homologous distribution in species of different insect orders, suggests an important role of this material in insect neuro(endocrine)-physiology.     

Distribution of GABA-like immunoreactive neurons in the optic lobes of Periplaneta americana

Summary Specific antisera against protein-conjugated -aminobutyric acid (GABA) were used in immunocytochemical staining procedures to study the distribution of the putative GABA-like immunoreactive neurons in the optic lobes of Periplaneta. GABA-like immunoreactive structures are evident in all three optic neuropil regions. Six different populations of GABAergic neurons, whose perikarya are grouped around the medulla, are found within the optic lobe. The number of these immunoreactive cells varies greatly and corresponds to the number of ommatidia of the eye. In the proximal part of the lamina, a coarse network of GABA-positive fibres is recognizable. These are the processes of large field tangential cells whose fibres pass through the distal surface of the medulla. A second fibre population of the lamina is made up of the processes of the centrifugal columnar neurons whose perikarya lie proximally to the medulla. The medulla contains 9 layers with GABAergic elements of variable immunoreactivity. Layers 1, 3, 5, 7 and 9 exhibit strong labelling, as a result of partial overlapping of the processes of centrifugal and centripetal columnar neurons, tangential fibres and/or lateral processes of perpendicular fibres and (possibly) processes of amacrines. A strong immunoreactivity is found in the proximal and distal layers of the lobula.     

Gap junctions in ovarian follicles of Drosophila melanogaster: inhibition and promotion of dye-coupling between oocyte and follicle cells

The analysis of chimeras has shown that communication between germ-line and soma cells plays an important role during Drosophila oogenesis. We have therefore investigated the intercellular exchange of the fluorescent tracer molecule, Lucifer yellow, pressure-injected into the oocyte of vitellogenic follicles of Drosophila. The dye reached the nurse cells via cytoplasmic bridges and entered, via gap junctions, the somatic follicle cells covering the oocyte. The percentage of follicles showing dye-coupling between oocyte and follicle cells was found to increase with the developmental stage up to stage 11, but depended also on the status of oogenesis, i.e., the stage-spectrum, in the respective ovary. During late stage 10B and stage 11, dye-coupling was restricted to the follicle cells covering the anterior pole of the oocyte. No dye-coupling was observed from stage 12 onwards. During prolonged incubation in vitro, the dye was found to move from the follicle cells back into the oocyte; this process was suppressable with dinitrophenol. Dyecoupling was inhibited when prolonged in vitro incubation preceded the dye-injection. Moreover, dye-coupling was inhibited with acidic pH, low [K⁺], high intracellular [Ca²⁺], octanol, dinitrophenol, and NaN₃, but not with retinoic acid, basic pH, or high extracellular [Ca²⁺]. Dyecoupling was stimulated with a juvenile hormone analogue and with 20-hydroxyecdysone. Thus, gap junctions between oocyte and follicle cells may play an important role in intercellular communication during oogenesis. We discuss the significance of our findings with regard to the electrophysiological properties of the follicles, and to the coordinated activities of the different cell types during follicle development and during the establishment of polarity in the follicle.     

Heterologous gap junctions between oocytes and follicle cells of an insect,Dysdercus intermedius,and their potential role as ion current pathways

Summary In telotrophic insect ovaries, the oocytes develop in association with two kinds of supporting cells. Each ovary contains five to seven ovarioles. An ovariole consists of a single strand of several oocytes. At the apex of each ovariole is a syncytium of nurse cells (the tropharium), which connects by strands of cytoplasm (the trophic cords) to four or more previtellogenic oocytes. In addition, each oocyte is surrounded by an epithelium of follicle cells, with which it may form gap junctions. To study the temporal and spatial patterns of these associations, Lucifer yellow was microinjected into ovaries of the red cotton bug, Dysdercus intermedius. Freeze-fracture replicas were examined to analyze the distribution of gap junctions between the oocyte and the follicle cells. Dye-coupling between oocytes and follicle cells was detectable early in previtellogenesis and was maintained through late vitellogenesis. It was restricted to the lateral follicle cells. The anterior and posterior follicle cells were not dye-coupled. Freeze-fracture analysis showed microvilli formed by the oocyte during mid-previtellogenesis, and the gap junctions became located at the tips of these. As the microvilli continued to elongate until late vitellogenesis, gap junction particles between them and follicle cell membranes became arranged in long arrays. The morphological findings raise questions about pathways for the intrafollicular phase of the ion currents known to surround the previtellogenic and vitellogenic growth zones of the ovariole.Supported by the Deutsche Forschungsgemeinschaft (Schwerpunkt Differenzierung)     

New vistas on the initiation and maintenance of insect motor behaviors revealed by specific lesions of the head ganglia

In insects, thoracic pattern generators are modulated by the two head ganglia, the supraesophageal ganglion (brain) and the subesophageal ganglion, which act as higher-order neuronal centers. To explore the contribution of each head ganglion to the initiation and maintenance of specific motor behaviors in cockroaches (Periplaneta americana), we performed specific lesions to remove descending inputs from either the brain or the subesophageal ganglion or both, and quantified the behavioral outcome with a battery of motor tasks. We show that ‘emergency’ behaviors, such as escape, flight, swimming or righting, are initiated at the thoracic level independently of descending inputs from the head ganglia. Yet, the head ganglia play a major role in maintaining these reflexively initiated behaviors. By separately removing each of the two head ganglia, we show that the brain excites flight behavior and inhibits walking-related behaviors, whereas the subesophageal ganglion exerts the opposite effects. Thus, control over specific motor behaviors in cockroaches is anatomically and functionally compartmentalized. We propose a comprehensive model in which the relative permissive versus inhibitory inputs descending from the two head ganglia, combined with thoracic afferent sensory inputs, select a specific thoracic motor pattern while preventing the others.     

Lectin staining of the dendrite sheath in contact chemosensitive sensilla of Periplaneta americana

The two sensillum lymph cavities of contact chemosensitive sensilla of insects are separated by the dendrite sheath. The composition of the dendrite sheath in the contact chemosensitive sensilla of the ventral sensory field on the maxillary palps of Periplaneta americana L. has been studied using lectin cytochemistry. The dendrite sheaths can be isolated from the surrounding tissue and the autofluorescent cuticle by incubation of cryostat sections in phosphate-buffered saline containing 1% Triton X-100. Various lectins bind specifically to the dendrite sheath indicating the presence of sugar residues. Enzymatic digestion with hyaluronidase or trypsin prior to lectin cytochemistry decreases staining intensity, whereas treatment with neuraminidase and chitinase causes no visible change. The material of the dendrite sheath can thus be assumed to contain acid mucopolysaccharides that probably are similar to those of the receptor lymph cavities. The negatively charged, hydrophilic acid mucopolysaccharides may make the dendrite sheath permeable for small cations. These findings are discussed in the context of the functional significance of the dendrite sheath in contact chemosensory sensilla of insects.     

Glial repair in the cultured central nervous system of an insect

Summary Insect glial cells are capable of division and repair in organ culture after selective damage with the toxin ethidium bromide. The repair is slower and less organised than seen in vivo after similar treatment and is still incomplete after one month. Granule-containing cells, which play an important role in the early stages of repair in vivo, are never seen in cultured connectives. This observation adds further support to the hypothesis that these cells are derived from haemocytes and that their presence is necessary for rapid and orderly repair. The uptake of ³H-thymidine into perineurial glial cells in vitro, both in control and ethidiumtreated connectives, shows that there is a considerable proliferation of cells in this region. Some uptake of thymidine is also seen in subperineurial glia but division alone cannot account for the large increase in the number of glial nuclei found at the early stages of repair in this region. Further, glial cells with diverse morphologies suggest that subpopulations are present. We conclude that cell migration from undamaged areas, as well as cell proliferation, is necessary for CNS repair in vitro.     

Tyrosine hydroxylase in the cerebral ganglia of the American cockroach (Periplaneta americana L.): an immunohistochemical study

We have investigated the distribution of tyrosine-hydroxylase-like immunoreactivity in the cerebral ganglia of the American cockroach, Periplaneta americana. Groups of tyrosine-hydroxylase-immunoreactive cell bodies occur in various parts of the three regions of the cerebral ganglia. In the protocerebrum, single large neurons or small groups of neurons are located in the lateral neuropil, adjacent to the calyces, and in the dorsal portion of the pars intercerebralis. Small scattered cell bodies are found in the outer layers of the optic lobe, and clusters of larger cell bodies can be found in the deutocerebrum, medial and lateral to the antennal glomeruli. Thick bundles of tyrosine-hydroxylase-positive nerve fibers traverse the neuropil in the proto- and deutocerebrum and innervate the glomerular and the nonglomerular neuropil with fine varicose terminals. Dense terminal patterns are present in the medulla and lobula of the optic lobe, the pars intercerebralis, the medial tritocerebrum, and the area surrounding the antennal glomeruli, the central body and the mushroom bodies. The pattern of tyrosine-hydroxylase-like immunoreactivity is similar to that previously described for catecholaminergic neurons, but it is distinctly different from the distribution of histaminergic and serotonergic neurons.     

Ultrastructural study of cholecystokinin-like immunoreactivity in endocrine cells of the insect midgut

Summary Electron-microscopic immunocytochemistry for the demonstration of CCK-like material in basal endocrine cells of the midgut of Aeschna cyanea, Locusta migratoria, Carausius morosus and Periplaneta americana was performed by use of the peroxidase-antiperoxidase procedure and the colloidal gold method. Immunoreactive cells appeared scattered among digestive and regenerative cells of the epithelium. Immunoreactivity was specifically detected over round to oval electron-dense granules whose size appeared rather different from species to species. Thus, the average size of 30% (d30) of the largest granules ranged from 312 nm in Periplaneta americana to 159 nm in Carausius morosus with intermediate values in Aeschna cyanea (d30=195 nm) and Locusta migratoria (d30=225 nm).