Die Bildung spezifischer Proteine während der Metamorphose der Speicheldrüsen von Wilhelmia lineata (Simuliidae)

Histolysis of pupal salivary glands and their further development during metamorphosis of Wilhelmia lineata were investigated by light microscopy. After pupal-adult apolysis the distal parts of the glands degenerate. The adult gland develops from a ring of tightly packed very small cells with small nuclei at the anterior end of the degenerating pupal gland. The gland of the female pharate adult consists of a spherical accessory gland with small cells and oval nuclei and a little U-shaped main gland with larger cells and round nuclei. The two U-shaped lobes are orientated horizontally. The gland of the male pharate adult has the same shape and cellular structure as the accessory gland of the female. During further development the main gland becomes greatly elongated as the cells increase in size, the cells become flattened, and the secretion of saliva into the gland lumen can be seen. The glands are fully differentiated at the time of pupal-adult ecdysis. Soluble proteins from the one-day-old female pharate adult show a very similar pattern to those of pupal and male glands. With growth of the female main gland and secretion of saliva into the gland lumen increasing amounts of proteins, which have been characterized earlier (Poehling et al., 1976) occur in the gland. This could suggest a specific rôle of these proteins during bloodsucking in the adult females.     

中华绒螯蟹不同生理阶段腹肢的结构变化及粘液腺的发育特征

用显微及亚显微方法研究了中华绒螯蟹雌体不同生理阶段(幼蟹、未成熟蟹、成熟蟹、抱卵蟹和流产蟹)腹肢的体壁结构变化和粘液腺发育特征。体壁的上皮细胞层常与粘液腺相连,粘液腺分泌物经导管穿过各层角膜排出。不同生理状况下中华绒螯蟹的腹肢体壁各角膜层结构的比例及致密度有明显的差异,粘液腺细胞及导管的数量不同,粘液腺与上皮细胞的连接程度也不同。粘液腺是否正常分泌、刚毛囊的开闭均与中华绒螯蟹的胚胎附着有关。比较研究发现,太湖抱卵蟹腹肢体腔内腺体比温州本地抱卵蟹腹肢内腺体发达,分泌的粘液也特别多。分析认为中华绒螯蟹腹肢组织结构、粘液腺的发育和分泌状况与胚胎流产有密切的关系。     

几种淡水鱼的胃腺细胞显微与超微结构的研究

尼罗非鲫的胃腺细胞和一般硬骨鱼类的泌酸胃酶细胞结构不同,属典型的泌酸细胞,与哺乳动物的壁细胞十分相似,细胞内充满微管泡系和线粒体,但是没有发现胃蛋白酶原颗粒,粗面内质网也极少,乌鳢,鲇和黄颡鱼的胃腺细胞则为典型的泌酸酶原细胞,除有微管泡系和线粒体外,还有丰富的胃蛋白酶原颗 和粗面内质网,用显示盐酸的Western方法证明这两类胃腺细胞都能分泌盐酸,但对检测色氨酸的Adams方法,两者都呈阴性反应,未能证明乌鳢胃细胞中胃蛋白酶原的存在,可能乌鳢的胃蛋白酶成分中色氨酸的含量不占多数,故未能检出。这两类胃腺细胞结构和功能的不同,与整个消化道结构的差别相一致,可能与它们的食性不同有关。微管泡系是两类胃腺细胞共有的结构,是泌酸的结构基础,由一系列短管的囊泡组成,在鱼类中,泌酸过程可能有顶浆分泌和局部分泌两种形式,泌酸活动中细胞顶膜,微管泡系以及高尔基体之间膜的转移关系和泌酸形式有关。     

THE FINE STRUCTURE AND FUNCTION OF THE SALIVARY GLANDS OF NUCELLA LAPILLUS (GASTROPODA: MURICIDAE)

The fine structure of the tubular and acinous salivary glandsof Nucella lapillus (L.) has been studied and some histochemicaland enzyme tests have been carried out. The clusters of subepithelialcells of the tubular glands secrete a glycoprotein composedof chains of tubular macromolecules resembling secretions knownto have adhesive properties which may assist in boring. Thesecretion is rich in disulphide groups, as are many toxins,and is believed to be responsible for the recently demonstratedpharmacological activity of the glands. It is proposed thatflaccid paralysis is induced in prey by envenomation with thissecretion during rasping, after soft parts have been exposedby an ‘anti-predator’ reaction to secretion fromthe hypobranchial gland of Nucella. The secretory vesicles ofboth types of gland cells in the acinous glands have heterogeneouscontents indicating that their secretions are complex. The majorcomponent in those of the mucous cells is an acid mucopolysaccharidetypical of a lubricant or releasing agent. The ciliated basalcells resemble typical enzyme-secreting cells and the majorconstituent of their secretion is a finely granular glycoprotein. (Received 8 January 1990; accepted 5 June 1990)     

Histology and ultrastructure of the glands associated with the porose areas on the gnathosoma ofRhipicephalus evertsi evertsi before and during oviposition

Histological and electronmicroscopical studies have shown that the subcuticular tissue associated with the porose areas of femaleRhipicephalus evertsi evertsi consists of paired multicellular, alveolar and lobularly arranged glands. At least two types of cells are clearly distinguishable, according with their location. Proximally, in direct association with the pores, cells with small and long nuclei are present. These cells are aligned along large, elongated lumina containing numerous microvilli and extend deep into the cuticular pores. They are separated from the extraintegumental space by cuticular valves. The distal gland sections are characterized by cells with large nuclei which are mostly arranged in the form of rosettes. These cells, which function as secretory cells, contain many mitochondria, smooth and rough endoplasmic reticulum and membrane-lined vesicles. The glands are always present in female ticks and their dorso-ventral extension increases continuously with feeding, reaching a maximum depth during oviposition.     

Histochemistry of the glands associated with the reproductive tract ofLymnaea stagnalis

Summary The albumen gland, the muciparous gland and the oöthecal gland of female genital tract of Lymnaea stagnalis, collected in spring, autumn and winter have been studied.The reactions for polysaccharides, proteins and RNA have been performed in order to characterise the secretion of the glands.The albumen gland secretion consists almost exclusively of slightly acid polysaccharides whose histochemical reactions, according to Lison and Grainger and Shillitoe confirm the presence of galactogen. Proteins are also present in the secretion. The muciparous gland secretion consists of strongly acid mucopolysaccharides (non sulphated) produced by large cells among which small cells containing sulphated mucopolysaccharides are present.In the oöthecal gland two zones are present, one with a single type of cells containing acid mucopolysaccharides, and the other with two different types of cells: the first with mucopolysaccharides and the second with sulphated mucopolysaccharides, proteins and glycogen at the basis of the cell. Sialic acids are not present in the secretion of the glands studied.The polysaccharidic composition of the secretion of the glands is different from gland to gland. The secretion of the glands gradually changes and gets acid according to the composition of the various membranes and envelopes wrapping up the eggs.     

Morphological changes in gland cells and axons resulting from stimulation of the salivary nerves of the Cockroach, Nauphoeta cinerea

The salivary glands of the cockroach, Nauphoeta cinerea (Olivier, 1789), are innervated and there is considerable evidence to suggest that dopamine is the neurotransmitter at the neuroglandular junction. As the gland is a bilaterally symmetrical structure it was possible to electrically stimulate the salivary nerve supplying the ipsilateral side of the gland whilst the contralateral side of the gland served as a convenient control. Saliva elicited from the glands by electrical stimulation of these nerves was collected and used to monitor the physiological state of the tissue. Glands were fixed for light and electron microscopy during secretion and it was observed that the ductules in peripheral acinar cells were distended in stimulated sides of the glands but not in contralateral unstimulated sides. This evidence implies that peripheral cells are responsible for the initiation of salivary fluid secretion. Changes were also observed in the catecholamine containing axons that innervate the glands. In stimulated axons a statistically significant reduction in numbers of small agranular vesicles was observed when compared with contralateral unstimulated controls and freshly fixed tissue. This was not the case with the larger granular vesicles of the same axons which showed no reduction in number as a result of stimulation. In addition it was also noted that the small agranular vesicles tended to aggregate and change their shapes in response to nerve stimulation. These results imply that the small agranular vesicles play a role in transmitter release.     

Fine structure of the axillary gland in the brown bullhead (Ictalurus nebulosus)

The axillary glands of Ictalurus are lobulated invaginations of the epidermis, opening at a pore between the pectoral spine and the cleithrum. Holocrine cells lining a false lumen form a viscous secretion. The secretory cells originate in the tenuous basal layer of the gland wall. Secretion is initiated by the formation of compound vesicles in cells that become very large and have complex cytoplasm of a varied appearance. Golgi systems are well developed and the perinuclear cytoplasm may contain many mitochondria and sacs of ribosomal endoplasmic reticulum; some tracts of cytoplasm are vesicular and contain free ribosomes. Some cells contain numerous large lysosomes, and some have extensive contents of fibrillar masses imperfectly separated by membranes, that recall the appearance of the mucous secretion of goblet cells. The secretory cells break down, releasing the degenerating organelles, including the nuclei, into the false lumen. Some structures are still recognizable in the secretion even after it has been expelled, but the main part of the formed secretion consists of the mucus-like masses. Various leucocytes are found in the gland walls and embedded in the secretion. The fine structure differentiates the holocrine cells of the axillary gland from the club cells of the epidermis, and from the venom glands associated with the fin spines of catfishes. The function of the axillary gland secretion remains unknown.     

Fine structure of the accessory glands of the female genital tract of the ichneumonid Pimpla turionellae (Insecta,Hymenoptera)

Summary The female accessory glands include the tubular poison gland, the paired, lemon-shaped uterus glands, and Dufour's gland, an unbranched tubular organ. They consist essentially of a single layer of epithelium cells surrounded by a basement membrane. The lumen is lined by cuticle. The proteinaceous secretion of the poison gland is released into intracellular ducts provided with microvilli, each connected to a channel lined with cuticle which leads to the central lumen of the gland. The channel is formed by special canal cells. Nerve endings are interspersed among the gland cells. The uterus gland consists of four cell types derived from a single type of precursor cell found in newly hatched wasps. Type I cells are covered by type II cells and are thus without contact to the luminal surface of the gland. They contain stacks or whorls of mitochondria and smooth cisternae in an alternating arrangement. Vesicles with a secretory product are found in cells of types II and III. Deep anastomosing infoldings of the plasmalemma, stabilized by microtubules and dense material at the branchings, are characteristic for type II cells. Most secretory vesicles are found in type III cells, the prevalent cell type which is thought to be the source of the lipoprotein secretion. Coated vesicles are present at deep infoldings of the plasmalemma. The greatly enlarged apical surface area of type IV cells and the presence of mitochondria in slender outgrowths is suggestive of an osmoregulatory function. In Dufour's gland, two cell types appear in succession, the first with a very dense cytoplasm, the second with dense inclusions and many seemingly empty vesicles of smooth endoplasmic reticulum. The secretion products, lecithin and a cholesterol ester, are thought to be formed by the second cell type. The dense inclusion might be lecithin, which reacts with osmium tetroxide. The cholesterol ester could have been washed out of the empty vesicles by the embedding procedure.     

Electron microscope studies of Fasciola hepatica III. Fine structure of the prostate gland.

An ultrastructural study of the prostate gland of Fasciola hepatica shows it to be composed of numerous unicellular glands. These gland cells contain an extensive granular endoplasmic reticulum (GER) system parts of which are intimately associated with septum-like invaginations of the plasma membrane extending almost to the nucleus. Also associated with the GER are many Golgi complexes which secrete large electron-lucid carbohydrate-rich secretory vesicles. The secretion passes up the gland ducts along with a very dense granular and fibrillar material. The ducts have a peripheral microtubular skeleton and are tightly bound to the epithelium of the ejaculatory duct by septate desmosomes. Secretory vesicles are stored in the expanded ends of the ducts where they pass through the ejaculatory epithelium and their content is discharged by the bursting of their limiting membrane.     

Ultrastructure of multicellular foregut glands in selected Solenogastres (Mollusca)

Foregut glands in Solenogastres are not only of importance in biological processes like feeding and digestion, but multicellular foregut glands also provide valuable characters for taxonomy and systematics. Here, the fine structure of four different types of foregut glands is investigated: the Meioherpia-type ventrolateral foregut gland of Meioherpia atlantica, the Simrothiella-type ventrolateral foregut gland of Simrothiella cf. margaritacea, and the Pararrhopalia-type ventrolateral foregut gland as well as the dorsal gland of Pararrhopalia pruvoti. Thereby, special focus is set on the arrangement of glandular and supporting cells within the glands, and on the characterization of glandular cells according to the size, shape and electron-density of their secretional vesicles. It is shown that the investigated glands are complex organs composed of non-glandular supporting cells and two to five glandular cell types producing discrete secretions.     

Anatomy and ultrastructure of dermal glands in an adult water mite,Teutonia cometes (Koch, 1837) (Acariformes: Hydrachnidia: Teutoniidae)

Organization of dermal glands in adult water mites Teutonia cometes (Koch, 1837) was studied using light-optical, SEM and TEM methods for the first time. These glands are large and occur in a total number of ten pairs at the dorsal, ventral and lateral sides of the body. The slit-like external openings of the glands (glandularia) are provided with a cone-shaped sclerite, and are combined with a single small trichoid seta (hair sensillum), which is always situated slightly apart from the anterior aspect of the gland opening. Each gland is formed by an epithelium encompassing a very large lumen (central cavity) normally filled with secretion that stains in varying intensity on toluidine blue stained sections. The epithelium is composed of irregularly shaped secretory cells with an electron-dense cytoplasm and infolded basal portions. The cells possess a large irregularly shaped nucleus and are filled with tightly packed slightly dilated cisterns and vesicles of rough endoplasmic reticulum (RER) with electron lucent contents. Dense vesicles are also present in the apical cell zone. Some cells undergo dissolution, occupy an upper position within the epithelium and have a lighter cytoplasm with disorganized RER. Muscle fibers are regularly present in the deep folds of the basal cell portions and may serve to squeeze the gland and eject the secretion into the external milieu. The structure of these dermal glands is compared with the previously described idiosomal glands of the same species and a tentative correlation with the glandularia system of water mites is given. Possible functions of the dermal glands of T. cometes are discussed.     

Secretory and basal cells of the epithelium of the tubular glands in the male Mullerian gland of the caecilian Uraeotyphlus narayani (Amphibia: Gymnophiona)

Caecilians are exceptional among the vertebrates in that males retain the Mullerian duct as a functional glandular structure. The Mullerian gland on each side is formed from a large number of tubular glands connecting to a central duct, which either connects to the urogenital duct or opens directly into the cloaca. The Mullerian gland is believed to secrete a substance to be added to the sperm during ejaculation. Thus, the Mullerian gland could function as a male accessory reproductive gland. Recently, we described the male Mullerian gland of Uraeotyphlus narayani using light and transmission electron microscopy (TEM) and histochemistry. The present TEM study reports that the secretory cells of both the tubular and basal portions of the tubular glands of the male Mullerian gland of this caecilian produce secretion granules in the same manner as do other glandular epithelial cells. The secretion granules are released in the form of structured granules into the lumen of the tubular glands, and such granules are traceable to the lumen of the central duct of the Mullerian gland. This is comparable to the situation prevailing in the epididymal epithelium of several reptiles. In the secretory cells of the basal portion of the tubular glands, mitochondria are intimately associated with fabrication of the secretion granules. The structural and functional organization of the epithelium of the basal portion of the tubular glands is complicated by the presence of basal cells. This study suggests the origin of the basal cells from peritubular tissue leukocytes. The study also indicates a role for the basal cells in acquiring secretion granules from the neighboring secretory cells and processing them into lipofuscin material in the context of regression of the Mullerian gland during the period of reproductive quiescence. In these respects the basal cells match those in the epithelial lining of the epididymis of amniotes.     

A survey of anther glands in the mimosoid legume tribes Parkieae and Mimoseae

In a broad survey of anther glands in the mimosoid legume tribes Mimoseae and Parkieae, representatives from 30 genera with anther glands were studied using scanning electron microscopy. Four kinds of anther glands could be distinguished. The Piptadenia-type gland, found in all but four of the genera surveyed, is usually spherical to ellipsoid in shape and often borne on a stipe. The cells making up the gland vary in size among species and are often sculptured. Six different kinds of sculpturing can be recognized: smooth, reticulate, striate, rugulate, scabrate, and papillate. The Gagnebina-type gland is the least specialized, consisting of a simple extension of the connective with irregularly projecting cells. The Prosopis africana-type gland is borne ventrally between the thecae, the connective extending hump-like over the apex of the anther. The Pentaclethra-type gland, found only in the genus Pentaclethra, is distinguished by a median dorsal furrow and a ventral conical structure similar to a food body or osmophore. Anatomical sections revealed two different subtypes within the Piptadenia-type gland. Some glands are composed of a homogeneous matrix of isodiametric cells, whereas others have two layers: a peripheral layer of large radially elongated cells, and a central sphere of smaller isodiametric cells and large air spaces. Some characters of anther glands have clear taxonomic significance, and more detailed surveys within genera will undoubtedly provide additional taxonomic markers.     

Surface changes during development and involution of the cement gland of Xenopus laevis

Summary The cement gland was studied from stage 17, when the anlage is established, to stage 49, shortly before its disappearance. At early stages, the apical membrane is covered by small microvilli that are more abundant than in the surrounding epiblast cells. Vesicular protrusions along the cell boundaries are also more numerous in the gland cells.When the gland reaches maturity, the apical membranes of gland cells differentiate into two regions. In the cranial, kidney-shaped region, the membranes are very narrow and protrude above the level of cell boundaries. Long and slender villi raise from the surface adjacent to cell boundaries. Apical surfaces in the caudal portion are larger and flattened. Cell boundaries are lined with shorter and thicker surface projections. At these stages, the bordering cells are covered with secretion vesicles.During involution the number of cells is progressively reduced. The area of the caudal portion increases relative to the area of the cranial portion. Apical surfaces become more flattened. Surface projections become much shorter and invade the whole of the apical surface. Bordering cells lose their secretion vesicles and their apical surface becomes ruffled with numerous short wrinkles. The significance of the apical structures and their evolution is discussed.     

Microstructural Analysis of the Capture Thread Spinning Apparatus in Orb Web Spiders

The microstructural characteristics of the capture thread production from silk glands in the orb web spiders were analyzed using scanning and transmission electron microscopes. Sticky and gluey capture threads of the web are originated from the silks of two flagelliform glands and four aggregate glands. They supply precursors of the secretory silks to a pair of characteristic “triad” spinning units on the posterior spinnerets. The aggregate gland is composed of large and multi‐lobed secretory region and thick excretory duct surrounded by large irregular nodules. The excretory duct of this gland basically consists of three superposed types of cells which are inner columnar epithelium, nodule forming cells and outer connectives. The nodules contain numerous mitochondria and glycogen particles within their cytoplasm and they are surrounded by the same sheath of thin connective tissues. Secretory region of the aggregate gland which produce water‐soluble components of the capture thread comprises discrete secretory vesicles and extensive rough endoplasmic reticulum. Characteristically, secretory droplets are formed without involvement of the Golgi complexes, suggesting that they do not play an important role in the processing of the capture threads. However the electron densities and internal textures of the granules are observed with diverse according to their maturation level. Finally, the secretory products are released by the mechanism of apocrine secretion losing part of their cytoplasm during this process.     

The effects of adrenalectomy on the harderian gland of the Wistar albino rats

Harderian glands of the Wistar albino rats normal and adrenalectomized were investigated by light microscopy. In normal, these glands have a tubuloalveolar structure. The gland is located in the medio posterior aspect of the orbit. It is lobulated and appears homogeneous in colour and texture. Harderian gland consist of tubules with wide lumina lined by a single layer of columnar epithelial cells surrounded by myoepithelial cells within their basal lamina. It contains porphyrin pigment which is stored as solid intraluminal deposits. The glandular epithelium possesses two cell types, termed A and B. Type A cells are more numerous. The single excretory duct of the gland is directly continuous with endpieces at the hilus and opens nasally and ventrally to the third eyelid. The excretory duct is accompanied by many acini of small serous glands around it. The tubuloalveoli of the gland is not divided into lobules. There is no branched duct system within the gland. The secretion seems to be associated with porphyrins, is essentially released by exocytosis, but holocrine secretion also occurs. The single excretory duct is lined by a stratified epithelium. The gland is surrounded by a collagenous capsule. The adrenalectomy, caused degenerative changes in the glands. Epithelial height was lower than in normal gland epithelium. Most of the acini were completely disorganised. The acinar lumina were filled with porphyrin debris. The results suggest that rat harderian glands are sensitive to adrenal androgen changes in both male and female rats.     

Location and ultrastructure of sex pheromone glands in female Callosobruchus maculatus (Fabricius) (Coleoptera : Bruchidae)

The ultrastructure of the female sex pheromone glands in Callosobruchus maculatus (Coleoptera : Bruchidae) were localized using a masking technique, combined with eiectro-antennography and by a comparison of the glandular cells of sexually active (flightless) females and non-sexually active (flight-form) females. Each unicellular gland is an invagination of the integumental membrane capped by a single secretory cell. These glands are situated on the fine intersegmental membrane, which joins the pygidium to the ovipositor. The secretory cells of the glands of active females are characterized by well-developed microvilli, with many elongated mitochondria among the latter. The high metabolic activity of these cells is revealed by the presence of heterogeneous secretion vesicles, some of which contain abundant crystallized material. Deep basal invaginations indicate the uptake of substances from the haemolymph. The receptor canal is a network of fine cuticular filaments which have the same structure regardless of the female's sexual status. Cells from the glands of non-sexually active females are underdeveloped and show no invaginations of the basal membrane and very few microvilli. The localization of these glands was made possible by the use of SEM, TEM and EAG as well as by masking the suspected zones and by comparing females in different physiological states: flightless females, which were sexually active and producing pheromones; and flight-form females, non-sexually active and producing no sex pheromones. Only by adopting such a stringent method was it possible to confirm the function of the glands whose ultrastructure was studied.     

Fine structure of the salivary glands of Triatoma infestans (Hemiptera: Reduviidae)

The fine structure of the salivary glands of adult Triatoma infestans (Hemiptera: Reduviidae) bugs has been analyzed. Stereomicroscopy and scanning electron microscopy showed that each insect presents a pair of salivary glands, each pair containing three distinct units (main, supplementary, and accessory) with different sizes and colors. Transmission electron microscopy demonstrated that all gland units consist of a monolayer of epithelial cells surrounding a large central lumen. The gland units are enveloped by a thick basal lamina containing bundles of muscle cells. Microvilli are present at the apical plasma membrane domain of the gland cells, thus enlarging the available membrane area for saliva secretion towards the large gland lumen, although occasionally budding vesicles could be observed among the microvilli. Cytochemical analysis showed that the salivary gland cells of T. infestans present abundant endoplasmic reticulum profiles and several lipid droplets.     

Fine structure of chick embryonic parathyroid glands cultured on media with different concentrations of calcium.

An electron microscopical study of parathyroid glands from 13-day old chick embryos cultured for 2 days on media with different concentrations of calcium was conducted. The same as in non-cultured embryonic glands, the cells in all cultures contained a moderate amount of rough endoplasmic reticulum and a large Golgi complex with many cisternae, vacuoles, vesicles, coated vesicles and small prosecretory granules. In addition, large secretory granules, which are very rare in the non-cultured controls appeared frequently in the cultures and were especially numerous in the glands cultured on high-calcium medium. The fact that the amount of secretory granules varied according to the concentration of calcium in the medium is interpreted as indicating that the rate of parathyroid hormone secretion in the embryo is already responsive to variations in the concentration of calcium. To the extent that in vitro results may be accepted as representative of what happens in vivo these results support the idea that the embryonic gland may be controlled by variations in the calcemia as the adult gland does.