The digestive cells of the hepatopancreas in Aplysia depilans (Mollusca, Opisthobranchia): ultrastructural and cytochemical study

Digestive cells are the most abundant cell type in the digestive diverticula of Aplysia depilans. These are tall columnar or club shaped cells, covered with microvilli on their apical surface. A large number of endocytic vesicles containing electron-dense substances can be found in the apical zone, but the presence of many heterolysosomes of large diameter is the main feature of these cells. Glycogen particles and some lipid droplets were also observed. Peroxisomes with a circular or oval profile were common, but crystalline nucleoids were not detected in them, although a dense spot in the matrix was observed in a few cases. These organelles were strongly stained after cytochemical detection of catalase activity. The Golgi stacks are formed by 4 or 5 cisternae, with dilated zones containing electron dense material. Arylsulphatase activity was detected in the Golgi stacks and also in lysosomes. Cells almost entirely occupied by a very large vacuole containing a residual dense mass seem to be digestive cells in advanced stages of maturation. The observation of semithin and ultrathin sections indicates that these very large vacuoles are the result of a fusion among the smaller lysosomes. Some images suggest that the content of these large vacuoles is extruded into the lumen of the digestive diverticula.     

Acute and acclimated digestive responses of the cockle Cerastoderma edule (L.) to changes in the food quality and quantity. II. Enzymatic, cellular and tissular responses of the digestive gland

Cockles Cerastoderma edule were fed two different concentrations of two diets with different qualities which were achieved by mixing different proportions of ashed silt particles with cells of the microalgae Tetraselmis suecica. After 3 days (acute response) and 11 days (acclimated response) of exposure to the diets, we analysed the digestive activity of the digestive gland using cyto-histological and enzymatic techniques. We measured (i) the volumetric fraction of digestive and basophilic cells in digestive tubules, (ii) the diverticular radius and the thickness of digestive epithelia, (iii) the stereological parameters characterizing the lysosomal system and, (iv) dry weight, soluble protein content and specific and total amylase, cellulase, laminarinase, and protease activities of the digestive gland. In the conditions of the present study, specific cellulase and laminarinase activities in the digestive gland of cockles were correlated with the volumetric fraction of basophilic cells (r=0.672 and 0.642, respectively), whereas the specific protease was highly correlated (r=0.866) with lysosomal volume density. The implications of these correlations are discussed in relation to the feeding and absorptive parameters reported in the preceding publication. In the acute response, adjustments of the synthesis of constituents of the lysosomal/proteolytic system of the digestive cells seemed to be the only mechanism operating at the digestive level to respond to the changes in food availability. Lysosomal volume density increased with rising ingestion rate of organic matter, however, the occurrence of a limit in this short-term tissular response would account for the recorded trade-off between absorption efficiency and ingestion rate with different food qualities. With regard to acclimation, food quality determined the nature of the response of the digestive gland. With low quality diets, a time-dependent capability of the digestive gland for intensifying lysosomal/proteolytic production explains the increase of food absorption rates that result from higher filtration and ingestion rates. With high quality food, digestive acclimation differed with food particle concentration: with low rations, in spite of constant morphometrical and stereological parameters, the significant changes in the absorptive balance of biochemical components suggests the existence of an increased production of lysosomes that promotes an accelerated turn-over rate of the digestive epithelia. With high food concentrations, this response was coupled with increased activities of cellulase and laminarinase enzymes, probably as a consequence of higher rates of enzyme secretions from basophilic cells.     

Immunocytochemical localization of cathepsin D in lysosomes of cortical collecting tubule cells of the rat kidney

Immunocytochemical localization of cathepsin D in rat renal tubules was investigated by means of indirect immunoenzyme and protein A--gold techniques. By light microscopy, fine granular staining was seen in the mesangial cells of glomeruli. Heavy reaction deposits were present in the cortical tubular segments and some of the medullary collecting tubules. The proximal tubules contained a few positive granules. Other segments were negative for cathepsin D. By electron microscopy, gold particles representing the antigenic sites for cathepsin D were present in cytoplasmic granules and multivesicular bodies of the segment of the cortical collecting tubule. These cytoplasmic granules were presumed to be digestive vacuoles (secondary lysosomes) from their morphological profile. The proximal tubule cells contained the very weakly labeled secondary lysosomes. No specific labeling was noted in other segments of the nephron. Control experiments confirmed the specificity of the immunostaining. Quantitative analysis of the labeling density in each subcellular compartment also confirmed that the main subcellular sites for cathepsin D are the secondary lysosomes and multivesicular bodies. The labeling density in these granules of the lysosomal system varied widely with the individual granules, suggesting that there is a considerable heterogeneity of enzyme content among the granules of the lysosomal system. The prominent presence of cathepsin D in the cortical collecting tubule suggests a certain segment-specific function of this proteinase.     

Ultrastructural and cytochemical aspects of the basophilic cells in the hepatopancreas ofAplysia depilans(Mollusca, Opisthobranchia)

The basophilic cells ofAplysia depilanshave a pyramidal shape and a large nucleus usually located near the center or in the basal half of the cell. The nucleus possesses several clumps of condensed chromatin and a prominent nucleolus. The great profusion of rough endoplasmic reticulum cisterns in a major feature of these cells. Secretion granules are accumulated in the apical zone, and arylsulphatase was detected in some of them. In some basophilic cells a very substantial part of the cell volume was occupied by clear vacuoles, some of them reaching 9 mum. However, in other cells only a few vacuoles were observed. Probably the cells with just a few vacuoles are still young, and after a progressive accumulation, the vacuoles become abundant in old cells. The presence of a dark nucleus in the cells with a large number of vacuoles suggests that they are in a final stage of their life. Arylsulphatase was detected in the vacuoles and also in small secondary lysosomes containing substances in digestion. Bundles of tubules with 50 nm in diameter were found within some cisterns of rough endoplasmic reticulum. A cell fraction enriched in mannitol oxidase, extracted from the hepatopancreas of a terrestrial slug, consisted in very similar tubular structures. Using a histochemical method, mannitol oxidase was detected in the basophilic cells ofA. depilans, and it may be associated with the tubular structures of the endoplasmic reticulum. This is the first report of mannitol oxidase in opisthobranch molluscs. Almost spherical peroxisomes with a small nucleoid were abundant in these cells. The nucleoids presented a rectangular section, but a crystalline structure was not evident. The peroxisomes were stained after the cytochemical detection of catalase activity.     

Characterization and immunolocalization of beta-D-glucuronidase in mouse testicular germ cells and spermatozoa

Spermatozoa released from the seminiferous tubules are terminally differentiated cells with no known synthetic activity. Their components are synthesized in the spermatogenic cells during spermatogenesis. In this study, we report the characterization and immunolocalization of beta-glucuronidase in mouse testicular germ cells and spermatozoa. The enzyme is an exoglycohydrolase with dual localization, being present in lysosomes and endoplasmic reticulum of several mouse and rat tissues. The purified germ cell preparations (spermatocytes, round spermatids, and condensed/elongated spermatids) when assayed for beta-glucuronidase activity showed that the spermatocytes contained five times more enzyme activity per cell than the spermatids. Polyacrylamide gel electrophoresis, carried out under native and denaturing conditions, demonstrated that the germ cells express only the lysosomal form of the enzyme (pI 5.5-6.0) with a subunit molecular mass of 74 kDa. Immunocytochemical studies revealed a positive reaction in the Golgi membranes, Golgi-associated vesicles, and lysosomes of late spermatocytes (pachytene spermatocytes) and a stage-specific localization during spermiogenesis. The forming or formed acrosome of the elongated spermatids (stages 9-16) and epididymal spermatozoa was highly immunopositive. Comparison of immunoprecipitation curves and kinetic properties of the enzyme present in spermatocytes and spermatozoa revealed no major differences. Taken together, our results demonstrate that beta-glucuronidase activities present in the lysosomes of spermatocytes and the sperm acrosome are kinetically and immunologically similar.     

The morphofunctional characterization and ploidy levels of the digestive gland cells in prosobranch gastropod mollusks (Prosobranchia: Gastropoda) with special reference to somatic polyploidy

The histological organization and ploidy levels of the digestive gland cells in 34 species of prosobranch gastropod mollusks that belong to the subclasses Patellogastropoda, Vetigastropoda, and Caenogastropoda (orders Littorinimorpha and Neogastropoda) were investigated using histochemical methods and cytophotometry of nuclear DNA. Two general types of differentiated cells, viz., digestive and basophilic (secretory-calcium), were identified in the epithelium of the digestive tubules. In Vetigastropoda and Neogastropoda species, all the cells are mostly diploid. In representatives of Patellogastropoda and Littorinimorpha, the digestive cells are diploid as well, but basophilic cells of many species reach polyploidy levels of 4–8c and in some species, even 4–8–16c. Cases of somatic polyploidy in basophilic cells are considered as adaptive modifications of histogenesis associated with the peculiarities of the environment (intensified metabolism in osmotically tolerant Littorina and Lottia species), the duration of ontogenesis (the short life cycle in Lacunida species), and a specific diet.     

Light and electron microscope localization of beta-glucuronidase activity in the stomach and digestive gland of the marine gastropod Littorina littorea

Summary An azo dye technique was used to investigate localization of the acid hydrolase,-glucuronidase, at light and electron microscope level in the stomach and digestive gland of the marine periwinkleLittorina littorea. Activity for-glucuronidase was located principally within digestive cells of the digestive gland and also associated with the microvillous border and epithelial cells lining the stomach. At the light microscope level all digestive tubules showed activity which appeared essentially restricted to the large heterolysosomes of the digestive cells. However not all digestive cells showed activity. In the electron microscope, reaction product was apparent in all types of macrovesicle in the digestive cells although not all stained positively. Heterophagosomes typically showed reaction product around their periphery or associated with the electron opaque contents. Activity was commonly seen around the apical edge of heterolysosomes where merging of heterophagosomes into heterolysosomes was apparent. Reaction product was commonly located within small electron lucent vesicles which lined the internal membrane of the heterolysosomes but sometimes also associated with flocculent, electron opaque contents. In the stomach dense clusters of reaction product were visible in lysosomes in the basal region of the epithelial cells and in the large granular inclusions of the secretory cells.     

Autometallographic localization of protein-bound copper and zinc in the common winkle,Littorina littorea: A light microscopical study

Summary Copper (Cu), zinc (Zn) and calcium (Ca) were demonstrated histochemically by means of conventional stains (rubeanic acid for copper, dithizone for zinc, and cobalt nitrare for calcium) and by autometallography in various tissues of winkles (Littorina littorea) sublethally exposed to either copper or zinc dissolved in sea water. Rubeanic acid and dithizone procedures exhibited poor sensitivity: there was no positive reaction after fixation tissues with Bouin's fixative, and only a weak reaction after ethanol fixation. Autometallography, however, produced a positive reaction with both fixatives in the form of black silver deposits in some key cell types. In winkles not exposed to either copper nor zinc, autometallographically demonstrated metals were found in the connective tissue pore cells, the lysosomes of digestive cells, the basal lamina of the digestive tubule epithelium, and cytoplasmic granules in the epithelial cells of the stomach wall. In addition, in winkles exposed to copper, metal deposits were present in some apical cytoplasmic granules of ciliated cells in the gill epithelium, the mucous secretion of gill mucocytes, and the circulating haemocytes. In winkles exposed to zinc, metal deposits were found in the basal cytoplasmic granules of ciliated cells in the gill epithelium, the mucous secretion of gill mucocytes, the apex and basal lamina of the nephrocytes in the kidney, and the connective tissue layer surrounding the blood vessels. Additionally, calcium was demonstrated histochemically in the cytoplasm of digestive cells, the cytoplasm of the epithelial cells of the stomach wall, the mucocytes of gills, the basal lamina of the kidneys, the haemocytes, the calcium and pore cells of connective tissue, and the oocyte cytoplasm. Metals were not detected by any procedure in sperm cells, in the cytoplasmic granules of oocytes, or in the basophilic cells in the digestive tubules. In conclusion, autometallography is a highly sensitive method and provides an excellent tool to localize protein-bound copper and zinc in molluscan tissues, and its use in combination with conventional histochemical or chemical methods is highly recommended.     

皱纹盘鲍消化腺细胞类型和分泌产物

对皱纹盘鲍消化腺进行了组织学、组织化学、超微结构及酶活性测定等研究。消化腺由消化细胞和嗜碱性细胞组成。消化细胞能内吞腺管腔内的外源性物质,细胞内充满大量与异噬功能有关的囊泡。消化细胞具有内吞和细胞内消化、分泌、贮存等功能。嗜碱性细胞含有发达的粗面内质网以及许多含铁的折光小体,具有分泌和贮存金属离子的功能。消化腺还呈现多种水解酶活性。     

Light and electron microscopy studies of the oesophagus and crop epithelium in Aplysia depilans (Mollusca, Opisthobranchia)

The oesophagus and crop epithelium of Aplysia depilans consist in a single layer of columnar cells with apical microvilli, and some of them also possess cilia. Cell membrane invaginations, small vesicles, multivesicular bodies and many dense lysosomes were observed in the apical region of the cytoplasm. In most cells, a very large lipid droplet was observed above the nucleus and a smaller one was frequently found below the nucleus; glycogen granules are also present. Considering these ultrastructural features, it seems that these cells collect nutritive substances from the lumen by endocytosis, digest them in the apical lysosomes and store the resulting products. The cell bodies of mucus secreting flask-shaped cells are subepithelial in the oesophagus and intraepithelial in the crop. Histochemistry methods showed that the secretion stored in these cells contains acidic polysaccharides. Secretory vesicles with thin electron-dense filaments scattered in an electron-lucent background fill most of these cells, and the basal nucleus is surrounded by dilated rough endoplasmic reticulum cisternae containing small tubular structures. Considering the relatively low number of secretory cells, mucus production cannot be high. Moreover, since protein secreting cells were not observed in either oesophagus or crop, extracellular digestion in the lumen of these anterior segments of the digestive tract most probably depend on the enzymes secreted by the salivary and digestive glands.     

幼龄皱纹盘鲍唾液腺和消化腺的超微结构与组织化学

以透射电镜观察和组织化学方法研究了45日龄皱纹盘鲍的唾液腺和消化腺。唾液腺由粘液细胞和纤毛细胞组成,粘液细胞含发达的粗面内质网和大量的粘原颗粒,分泌中性和酸性混合粘多糖。消化腺由消化细胞和嗜碱性细胞组成,消化细胞呈现活跃的内吞和细胞内消化,并具蛋白酶和非特异性酯酶活性。嗜碱性细胞含发达的粗面内质网和大量含铁的折光小体,折光小体的电子密度较低。     

Cytochemical demonstration of latency of lysosomal hydrolases in digestive cells of the common mussel,Mytilus edulis,and changes induced by thermal stress

Latent beta-glucuronidase and glucosaminidase activities have been demonstrated in small cytoplasmic particles, which may possibly be primary lysosomes, as well as some larger granules of the digestive cells of the common mussel. Latency was indicated by increased staining of these structures following incubation in buffer at pH 4.5 at 37 degrees C. The exposure of mussels to temperatures of 25-28 degrees C over a period of four days induced a significant decrease in the latency of lysosomal glucosaminidase. Thermal death produced labilization of lysosomes although selective release of hydrolase activity was indicated by the differential latency of glucosaminidase and glucuronidase. The injection of hydrocortisone induced a significant increase in latency in stressed animals, indicating that the stress response involved changes in structure and function of membranes.     

β-Glucuronidase and hexosaminidase are marker enzymes for different compartments of the endo-lysosomal system in mussel digestive cells

In environmental toxicology, the most commonly used techniques used to visualise lysosomes in order to determine their responses to pollutants (LSC test: lysosomal structural changes test; LMS test: lysosomal membrane stability test) are based on the histochemical application of lysosomal marker enzymes. In mussel digestive cells, the marker enzymes used are β-glucuronidase (β-Gus) and hexosaminidase (Hex). The present work has been aimed at determining the distribution of these lysosomal marker enzymes in the various compartments of the endo-lysosomal system (ELS) of mussel digestive cells and at exploring whether intercellular transfer of lysosomal enzymes occurs between digestive and basophilic cells. Immunogold cytochemistry has allowed us to conclude that β-Gus is present in every compartment of the digestive cell ELS, whereas Hex is not so widely distributed. Moreover, Hex is intimately linked to the lysosomal membrane, whereas β-Gus appears to be not necessarily membrane-bound. Therefore, two populations of heterolysosomes with different enzyme load and membrane stability have been distinguished in the digestive cell. In addition, heterolysosomes of different electron density have been commonly observed merging together by contact; we suggest that some might act as storage granules for lysosomal enzymes. On the other hand, β-Gus seems to be released to the digestive alveolar lumen in secretory lysosomes produced by basophilic cells and endocytosed by digestive cells. Regarding the implications of the present study on the interpretation of lysosomal biomarkers, we conclude that β-Gus, but not Hex, histochemistry provides an appropriate marker for the LSC test and that, although both lysosomal marker enzymes can be employed in the LMS test, different values would be obtained depending on the marker enzyme employed. This study was funded by the University of the Basque Country through a grant to Consolidated Research Groups. U.I. is a recipient of a pre-doctoral fellowship from the Basque Government.     

Histopathology of the digestive gland of the bivalve mollusk Crenomytilus grayanus (Dunker, 1853) from southwestern Peter the Great Bay, Sea of Japan

The histomorphology of the digestive gland of the bivalve mollusk Crenomytilus grayanus from Sivuchya Bay, which is located in the southwest of Peter the Great Bay and subjected to the effect of polluted waters of Tumannaya River, was studied. Pathological changes of the digestive tubules, channels, and connective tissue of the gland were recorded in all the mussels studied. The epithelium of the tubules and channels was characteristic with erosive disturbances and by heavy vacuolization of digestive cells; connective tissue of the gland was specified by cells with lipofuscin (granulocytomes) and by foci of cells necrosis and lysis. Nervous fibers running in the gland were swollen in some mollusks. Strongly basophilic spherical formations, presumably one of the development stages of a parasitic plasmodium, were found in the granulocytomes and among vesicular cells of connective tissue of all the mussels. It was concluded that pathological changes in digestive gland of Gray’s mussel might be caused by chronic pollution of the bay and by parasitic invasion.     

Defective lysosomal enzyme secretion in kidneys of Chediak-Higashi (beige) mice

The beige mouse is an animal model for the human Chediak-Higashi syndrome, a disease characterized by giant lysosomes in most cell types. In mice, treatment with androgenic hormones causes a 20-50-fold elevation in at least one kidney lysosomal enzyme, beta-glucuronidase. Beige mice treated with androgen had significantly higher kidney beta-glucuronidase, beta-galactosidase, and N-acetyl-beta-D-glucosaminidase (hexosaminidase) levels than normal mice. Other androgen-inducible enzymes and enzyme markers for the cytosol, mitochondria, and peroxisomes were not increased in kidney of beige mice. No significant lysosomal enzyme elevation was observed in five other organs of beige mice with or without androgen treatment, nor in kidneys of beige females not treated with androgen. Histochemical staining for glucuronidase together with subcellular fractionation showed that the higher glucuronidase content of beige mouse kidney is caused by a striking accumulation of giant glucuronidase-containing lysosomes in tubule cells near the corticomedullary boundary. In normal mice lysosomal enzymes are coordinately released into the lumen of the kidney tubules and appreciable amounts of lysosomal enzymes are present in the urine. Levels of urinary lysosomal enzymes are much lower in beige mice than in normal mice. It appears that lysosomes may accumulate in beige mice because of defective exocytosis resulting either from decreased intracellular motility of lysosomes or from their improper fusion with the plasma membrane. A similar defect could account for characteristics of the Chediak-Higashi syndrome.     

Subcellular distribution of cadmium and its cellular ligands in mussel digestive gland cells as revealed by combined autometallography and X-ray microprobe analysis

Autometallography (AMG) and electron probe X-ray microanalysis (EPXMA) were applied in combination to determine the subcellular distribution of Cd and its subcellular ligands in the digestive gland cells of Cd-exposed mussels Mytilus galloprovincialis. Black silver deposits (BSD), which reveal the presence of metals when AMG is applied, were only localized in digestive cell lysosomes. Digestive cell cytoplasm and basophilic cells were devoid of BSD. EPXMA (static probe and X-ray mapping) indicated that Cd, S (possibly associated with metallothioneins or metallothionein-like proteins) and autometallographical Ag ions are co-localized within digestive cell lysosomes. In addition, Cd and S co-occur in the absence of Ag in the cytosol of digestive cells. AMG does not reveal the presence of the Cd pool strongly bound to cytosolic Cd-metallothionein complexes; only free Cd or Cd supposedly loosely bound to (semi)digested metallothionein within lysosomes was revealed. The levels of lysosomal Cd were indirectly quantified by stereology as the volume density of BSD (Vv_BSD). Significantly higher values were recorded in Cd-exposed mussels compared with controls at all exposure times. However, Vv_BSD values were lower at days 7 and 21 than at day 1. This relative decrease in Vv_BSD reflected another (and confounding) response elicited by Cd-exposure in the digestive epithelium: the volume density of basophilic cells (Vv_BAS) increased significantly as exposure progressed. Due to this cell-type replacement, the net accumulative capacity of the digestive epithelium decreases at long exposure times.     

Regeneration of radiation-damaged digestive tissues in juvenile Pacific oysters (Crassostrea gigas)

Juvenile Pacific oysters, Crassostrea gigas, were irradiated with 16 and 40 krad and their tissues examined histologically. Degenerative syndromes and tissue regeneration processes were determined for the stomach, gut, collecting ducts, and digestive tubules. Following degeneration, tissue regeneration was observed in the digestive tissues of most oysters exposed to 16 krad and in a limited number exposed to 40 krad. Regeneration was first observed in the digestive tubules and subsequently in the stomach, gut, and collecting ducts. Cellular repopulation of the digestive tubules involved epithelialization with large, undifferentiated crypt cells which then differentiated into functional secretory and absorptive cells. Regeneration in the stomach, gut, and collecting ducts was initiated by proliferative islands of small basophilic cells. Mitotic division of those cells and their subsequent differentiation into functional epithelial cells resulted in the rapid restoration and apparent recovery of the affected tissues. The results of these studies indicate that radioresistance of juvenile C. gigas may in part be due to the remarkably efficient regenerative mechanisms involved in replacing injured or lost digestive tissues.     

SECRETION AND ENDOCYTOSIS IN INSULIN-STIMULATED RAT ADRENAL MEDULLA CELLS

Insulin was used to deplete the adrenalin stores of rat adrenal medulla cells. Release of secretion was observed to occur by exocytosis. In addition, during the stages of massive release of secretory granules, the insulin-treated preparations showed greatly enhanced endocytic uptake of horseradish peroxidase. The tracer was taken up within vesicles, tubules, multivesicular bodies, and dense bodies. From acid phosphatase studies and from previous work it appears that many of the structures in which peroxidase accumulates are lysosomes or are destined to fuse with lysosomes. Subsequent to the period of intense exocytosis and endocytosis, there is a transient accumulation of lipid droplets in the adrenalin cells. The cells then regranulate, with new granules forming near the Golgi region. These results suggest that under the conditions used, much of the membrane that initially surrounds secretory granules is degraded after release of the granules.