Steroid transport through the surface of the prothoracic gland cells in Galleria mellonella L.

Steroid transport through the cell surface of the giant polyploid prothoracic gland cells of Galleria mellonella L. was studied by an ultracytochemical method. The alkaloid digitonin, known to form a complex with all sterols having a free-OH radical in position 3, proved to be suitable for studying the interiorisation of moulting hormone precursors and the release of synthesized hormones. The results suggest that cholesterol uptake in the last larval instar occurs by macropinocytosis during the feeding period, while the release of the steroids produced by the gland occurs by reverse micropinocytosis mostly on days 5-7 of the instar. The two processes are not simultaneous. The intracytoplasmic localisation of the reaction product confirms the steroidogenic role of the prothoracic gland.     

Electron microscopical-immunocytochemical evidence of ecdysteroids in the prothoracic gland of Galleria mellonella

Summary Fixation of prothoracic glands of Galleria mellonella with a solution containing saponin permits immunocytochemical staining of the entire gland. By this means ecdysteroids were demonstrated electron microscopically to be present in the hyaloplasm and microtubules.Supported by Sächsische Akademie der Wissenschaften zu Leipzig     

Ultrastructural localization of calcium in prothoracic gland cells of Galleria mellonella L. (Insecta,Lepidoptera) in relation to secretory activity

Summary Localization of intracellular calcium was demonstrated by precipitation with potassium hexahydroxoantimonate in the fixation medium containing osmium tetroxide or osmium tetroxide and glutaraldehyde. The presence of calcium in the precipitates was confirmed by X-ray microanalysis. Cells from active prothoracic glands contain more calcium deposits than inactive glands. The calcium precipitates are mainly localized in the nucleus, in the smooth endoplasmic reticulum, in the hyaloplasm and to a lesser degree in the mitochondria. These findings are consistent with the proposed role of calcium in the stimulation of steroidogenesis.     

Nerve-induced secretion of parotid acinar granules in cats

Summary Electron microscopy of cat parotid glands revealed great heterogeneity in the secretory granules of normal unstimulated acinar cells. Electrical stimulation of the parasympathetic nerve to the gland evoked a copious flow of parotid saliva which was accompanied by an extensive depletion of the secretory granules from the acinar cells. Exocytosis was captured as it was occurring by means of perfusion-fixation, and showed that the events occur in a conventional manner. Stimulation of the sympathetic nerve caused only a very small flow of saliva, and no acinar degranulation was detected. It can be concluded that the parasympathetic secretomotor axons provide the main drive for parotid acinar degranulation in the cat. This contrasts with the rat in which sympathetic impulses provide the main stimulus for parotid acinar degranulation. These dissimilarities serve to emphasise how extensively species differences may influence autonomic responses in salivary glands.     

Ultrastructural changes associated with renin secretion from the juxtaglomerular apparatus of mice

Summary Thin sections and freeze-fracture replicas were used to investigate the ultrastructural changes associated with renin secretion from the juxtaglomerular part of the afferent arteriole of male mice. Adrenalectomized animals in which renin secretion was stimulated by furosemide application and bleeding were also studied. Exocytosis of mature electron-dense granules was found in all experimental groups. Before extrusion, the region of granule facing the cell membrane changed, with vesicular and/or stacked membrane-like profiles and a small local protrusion of the granule membrane appearance of. Concomitantly, punctuate sites of fusion between the cell and granule membranes were observed. Later, unaltered amorphous, and altered membrane-like granule content was released from omega-shaped cavities into the extracellular space. In stimulated animals the alteration and extrusion of several closely apposed granules was reminiscent of compound exocytosis. Coated pits were frequently seen, suggesting specific retrieval of the former granule membrane. The collapsing silhouette of a depleted granule very rarely took the form of a saccule whose narrow membrane-bounded neck was continuous with the extracellular space.Observed were two additional events by which active and inactive renin may be released. Small electron-lucent vacuoles of undetermined origin fused with the cell membrane and, in stimulated kidneys, some epithelioid cell processes disintegrated. However, the interpretation of the related ultrastructural phenomena was uncertain.These studies were supported by the German Research Foundation within the SFB 90 Cardiovasculäres System     

Ultrastructure of the prothoracic gland of variously aged female pupae of Xyleborus ferrugineus and associated ecdysteroid titers

Summary The prothoracic glands of female pupae of Xyleborus ferrugineus at three ages (0-h, 48-h and 72-h-old) were examined for ultrastructural changes that correlate with high titers of ecdysteroids in the entire pupa.In all three ages, the prothoracic gland cells appear compact with a prominent nucleus. Lysosome-like structures with concentrically oriented internal membrane are observed in both 0-h and 72-h-old gland cells. Mitochondria are abundant in the glands of both ages, and rough endoplasmic reticulum is relatively sparse. Numerous microtubules are present in the prothoracic gland cells of 48-h-old female pupae that contain relatively high titers of ecdysteroids. Rough endoplasmic reticulum also is especially abundant at this age of the pupa. Ecdysone titers, estimated by the radioimmunoassay method (RIA), were 161.04±22.61 pg/mg, 704.25±69.02 pg/mg and 298.72±26.80pg/mg body weight in 0-h, 48-h and 72-h-old female pupae, respectively.This research was supported by the College of Agricultural and Life Sciences, University of Wisconsin, Madison; and in part by research grants No. RR-00779, Division of Research Resources, and No. AG-01271, Institute on Aging, of the National Institutes of Health; and No. PFR 77-08279 from the National Science Foundation to D.M.N.We thank especially Jon Gundersen and Steven Schnurrer for extensive and invaluable technical assistance during this research     

Metabolism of polyunsaturated fatty acids by larvae of the waxmoth,Galleria mellonella

The metabolic fates of linoleic (18:2n6) and linolenic (18:3n3) acids injected into the hemocoel of fifth instar larvae of the waxmoth, Galleria mellonella, were examined by radio-high-pressure liquid chromatography and radio-gas-liquid chromatography. In addition to undergoing β-oxidation and incorporation into neutral and phospholipid fractions, a portion of both of these C18 fatty acids was elongated and desaturated to longer chain and more unsaturated polyenoics. Radioactivity from linoleic acid was recovered in components that coeluted with 18:3, 18:4, 20:3, and 20:4. Radioactivity from linolenic acid was recovered in an unidentified component and in components that coeluted with 18:4, 20:3, and 20:5. Labeled arachidonic and eicosapentaenoic acids injected into waxmoth larvae were converted to prostaglandins, suggesting that one aspect of the biological significance of the elongation/desaturation reactions is to generate precursors for prostaglandin biosynthesis.     

Regulation of prothoracic gland ecdysteroidogenic activity leading to pupal metamorphosis

The prothoracic glands of early last (fifth) instar larvae of the silkworm are inactive with regard to ecdysteroidogenesis and unresponsive to prothoracicotropic hormone (PTTH) [J. Insect Physiol. 31 (1985) 455]. In an attempt to elucidate the hormonal mechanisms that cause the inactivity, we compared the effects of PTTH, dibutyryl cyclic AMP (dbcAMP), a cAMP phosphodiesterase inhibitor (IBMX), juvenile hormone analogue (JHA) and 20-hydroxyecdysone (20E) on secretory activity of the third, fourth and fifth instar glands. Among the factors examined, feedback inhibition by 20E was indicated to be the most likely factor. Inhibition was moderate in the third and early fourth instars while 20E strongly inhibited the glands of middle fourth instar larvae. The inhibitory effect of 20E was reduced by removal of the brain and corpora allata. Once the glands were suppressed by 20E to the degree of exhibiting neither secretory activity nor responsiveness to PTTH, dbcAMP or IBMX did not elicit ecdysone secretion at all. Thus the feedback inhibition may shut down ecdysteroidogenesis although it is obscure whether it affects the intracellular transductory cascade from the PTTH receptor through cAMP. Taken together, this evidence suggests that inactivity of the gland in the early fifth instar is brought about by feedback inhibition of the glands by 20E occurring in the late fourth instar, and that this inactivity is maintained by the juvenile hormone found in the early fifth instar.     

Effect of culture medium on the in vitro secretion activity of prothoracic glands from Pseudaletia separata

The prothoracic glands (Pgs) taken from the last instar of the common armyworm, Pseudaletia separata, were cultured in various media for the purpose of finding a suitable medium for relatively long-term culture of Pgs. Among the tested culture media, MGM-450 medium without serum was the best to maintain PG cells viable for relatively long periods, and to continue to secrete ecdysteroids. Secretion of ecdysteroid by the PG in vitro became marked when the PG was taken from last instar larvae older than 2 days after the last molt. PGs cultured in any of the media secreted ecdysteroid only within the first 2 h after placing them in culture, however, in the MGM-450 medium, the PGs secreted ecdysteroid even after 5 days of culture. Arch. Insect Biochem. Physiol. 38:147–154, 1998. © 1998 Wiley-Liss, Inc.     

PTTH-stimulated ecdysone secretion is dependent upon tyrosine phosphorylation in the prothoracic glands of Manduca sexta

PTTH stimulates ecdysteroid secretion by the insect prothoracic glands. The peptide activates cAMP synthesis in a calcium-dependent manner, ultimately enhancing ecdysteroid synthesis. We have found that PTTH stimulates a rapid increase in tyrosine phosphorylation of at least four proteins in the prothoracic glands of larval Manduca sexta, as seen on Western blots of glandular lysates probed with antibody directed against phosphotyrosine. PTTH-stimulated tyrosine phosphorylation is blocked by an inhibitor of Src family tyrosine kinases, 4-amino-5-(4-methylphenyl)-7-(t-butyl)pyrazolo[3,4-d]-pyrimidine (PP1). The inhibitor also blocks PTTH-stimulated ecdysone secretion, as well as PTTH-stimulated cAMP synthesis. Direct activation of the catalytic subunit of adenylyl cyclase by forskolin is not affected by PP1. In addition, ecdysteroid secretion stimulated by the cAMP analog dbcAMP is not blocked by PP1. These findings point to an important role for a Src-family tyrosine kinase at a very early step in the PTTH signaling pathway, prior to the activation of adenylyl cyclase.     

In search for non-steroidogenic functions of the prothoracic glands of the desert locust, Schistocerca gregaria: a peptidomic and proteomic approach

The only well established function of the prothoracic glands (PGs) of insects is the production of ecdysteroids. In gregarious locusts, like in most insect species, the PGs degenerate soon after the adult molt. In this way they resemble the thymus of mammals, a gland with an important role in the build up of the immune system in young animals. In adult solitarious locusts the PGs persist much longer, however without producing substantial amounts of ecdysteroids. In the literature the existence of a well developed rough endoplasmic reticulum and Golgi complex system has been repeatedly reported, suggesting an active role in peptide or/and protein synthesis and release. The nature of the secreted products remained unknown. Our pepdidomic analysis of an acidified methanolic extract of PGs of last instar gregarious nymphs did not yield any indication for the presence of known locust or other peptides. The peptide release assay was also negative. For our proteomic analysis, we developed an EST-based identification strategy. We successfully identified 50 protein spots on a two dimensional map. In addition to typical protein synthesis-related proteins, a number of proteins with a role in detoxification processes were found, suggesting some role of the PGs in the defense system.     

Stage-dependent effects of starvation on the growth, metamorphosis, and ecdysteroidogenesis by the prothoracic glands during the last larval instar of the silkworm, Bombyx mori

The stage-dependent effects of starvation on the growth, metamorphosis, and ecdysteroidogenesis of the prothoracic glands during the last larval instar of the silkworm, Bombyx mori, were studied in the present study. When last instar larvae were starved beginning on day 1 of that instar, all larvae died between days 5 and 7 of the instar. Although the prothoracicotropic hormone (PTTH) release from the brain-corpus cardiacum-corpus allatum (BR-CC-CA) did not significantly change during starvation, a deficiency in PTTH signal transduction was maintained, which led to very low levels of hemolymph ecdysteroids after the beginning of starvation. However, when starvation began on day 3 of the last larval instar, the major hemolymph ecdysteroid peak, preceding larval-pupal transformation, occurred 1 day earlier than that in control larvae. Protein content of the prothoracic glands in day 3-starved larvae was maintained at a low level as compared to that of control larvae. The secretory activity of the prothoracic glands in day 3-starved larvae was maintained at a level similar to that of control larvae. However, the rate of ecdysteroidogenesis, expressed per microgram of glandular protein, was greatly enhanced in these starved larvae, indicating that upon starvation, larvae increased the ecdysteroid production rate to enhance the rate of survival.     

Schistosoma mansoni: description of the head gland of cercariae and schistosomules at the ultrastructural level.

The head gland of the cercaria of Schistosoma mansoni appears to be a relatively large unicellular entity consisting of a fundus tapering into a system of multiple ducts that opens into the integument at the anterior end of the oral sucker. The fundus is located in the posteriodorsal area of the oral sucker and contains most of the secretory granules. The ducts are usually narrow and devoid of secretory granules especially near their integumental junctions in the cercaria. In Schistosomules of S. mansoni the fundus is reduced and the ducts are distended as secretory granules move en masse into the integument during the penetration of cercaria into their host where they may provide material for repair of the integument of the oral sucker damaged during penetration. The head gland has a strong affinity for luxol fast blue and acid hematin stains which suggests the presence of phospholipids.     

Effects of starvation,chilling, and injury on endocrine gland function in Galleria mellonella

Starvation, chilling, and injury of last instar Galleria mellonella larvae typically elicit extra larval molts or a delay in pupation. The primary sites of action and the nature of the signals by which these treatments affect development are not known. However, since the connections of the brain to the nerve cord are crucial for the effects of starvation and chilling, these signals apparently affect the brain-centered program of developmental regulation via the nerve cord. Chilling, and occasionally starvation, cause extra larval molts in last instar larvae treated prior to the nervous inhibition of their corpora allata; release of a cerebral allatotropin, which stimulates the production of juvenile hormone, appears to be involved in this effect. After this time, a delay in pupation is the principal effect of starvation and chilling, and is apparently due to a temporal inhibition of the release of the prothoracicotropic hormone. Chilling also appears to inhibit unstimulated ecdysteroid production by the prothoracic glands. The effect of injury is not mediated by the nerve cord, but appears to involve an inhibitory humoral factor that affects either the brain or the prothoracic glands themselves. Injury also stimulates juvenile hormone production, an effect which is enhanced when the brain is separated from the nerve cord and which is evidenced by a delay of ecdysis and the occasional retention of some larval features in the ecdysed insects. None of the effects of these various treatments on the brain and the endocrine glands persist when the brains or glands are implanted into untreated hosts.     

Venom from the ectoparasitoid wasp Eulophus pennicornis disrupts host ecdysteroid production by regulating host prothoracic gland activity

Abstract. Attack by the ectoparasitoid Eulophus pennicornis Nees (Hymenoptera: Eulophidae) prevents larvae of Lacanobia oleracea L. (Lepidoptera: Noctuidae) from moulting. Prothoracic glands (PGs) excised from parasitized or artificially envenomated hosts show a reduced basal level of ecdysteroid release at a time when non-parasitized caterpillars produce an ecdysteroid surge (48 h post moult to 5th stadium = penultimate stadium in non-venomated hosts). By contrast, PGs from similarly parasitized or envenomated caterpillars release comparatively high levels of ecdysteroid at 120 h post-moult. Temporary inactivation of PGs cannot be attributed solely to a parasitoid-induced reduction in cell viability, and incubation in E. pennicornis venom in vitro does not exert any direct effect on either PG cell viability or ecdysteroid release. However, inactivated PGs are not stimulated by forskolin, which may indicate that the absence of the required pre-moult ecdysteroid surge in developmentally arrested L. oleracea is due to insensitivity to a prothoracicotropic hormone. Even though parasitized caterpillars never moult, reversed-phase HPLC separations and radioimmunoassay confirm that they produce active moulting hormone (20-hydroxyecdysone) at 120 h post-moult. These results suggest that E. pennicornis arrests host development through the indirect effects on their hosts' PGs. This effect is not achieved through the destruction of gland cells, but more likely reflects the interruption of an innate cycle in PG activity, such that they lose their ability to respond to a normal cue to produce an essential hormone peak at a crucial point in development.     

Ultrastructural visualization of exocytosis in the pig pineal gland

Summary The pinealocytes of the pig contain conspicuous dense bodies, the nature and role of which are not yet fully elucidated. The aim of this study was to demonstrate whether or not these structures are involved in the secretion process. The tannic acid-Ringer incubation (TARI)-method, which allows a clear-cut ultrastructural study of secretory discharge by exocytosis, has been used. The results indicate that pig pinealocytes release the content of the dense bodies with an amorphous inner structure into the extracellular space via exocytosis and that this secretion is quantitatively important. The secreted material is proteinaceous in nature; this indicates that polypeptides are released by the pineal.     

Ultrastructure of the prothoracic gland cells of the last instar of Galleria mellonella in relation to the state of development

The prothoracic glands of the last instar of Galleria mellonella undergo characteristic alterations of their cellular fine structure closely related to cellular activity. During progressive secretory activity of the gland cells there are extensive plasmalemmal infoldings and formation of a pronounced lacunar system. Mitochondria of the active cell phase are characterized by a specific increase in size and paler colour of the matrix. In contrast to the alterations, nuclei, ER and Golgi cisterns do not undergo any submicroscopic changes during the different phases of cellular activity. The relationship between the substructural phenomena and the specific phases of cellular activity are discussed.