The ovaries and changes in their structural components at the end of vitellogenesis and during vitelline membrane formation in the butterfly, Calpodes

The eight ovarioles of Calpodes ethlius are meroistic and polytrophic with seven nurse cells per follicle. The follicles consisting of oocyte, nurse cells and surrounding follicular cells are connected by interfollicular bridges, whose cells are characterized by bundles of microtubules which appear, with some fine filaments, to terminate on or near to the plasma membrane at hemidesmosomes. The ovariolar sheath consists of tightly knit circular and longitudinal muscles which are heavily tracheated. The ovariolar duct consists of more loosely arranged circular and longitudinal muscles and an inner epithelial layer, also tracheated. The vitelline membrane appears to be secreted largely by the oocyte first as an electron-lucent layer which becomes gradually more electron-dense, probably as a result of addition of material from the follicular cells. Overlapping plate-like structures on the outer surface of the fully formed vitelline membrane may provide waterproofing.     

Histochemical analyses of hepatic architecture of the hagfish with special attention to periportal biliary structures

The hagfish liver was histochemically examined with special attention to biliary structures around the portal veins. Hepatocytes were organized into tubular structures surrounded by sinusoids. Biliary ductule structures, which resemble the ductal plates transiently appearing in mammalian liver development, were observed around the portal veins, but they did not appear around central veins. Thus, the hagfish liver demonstrates the same basic structure as the mammalian liver; that is, a vascular system from portal to central veins via sinusoids, and portal triad structures consisting of portal veins, hepatic arteries, and intrahepatic bile ducts. The epithelial cells of the ductal platelike structures strongly expressed cytokeratin, had some lectin-binding sites, and were delineated by the basal lamina, which was reactive for periodic acid-Schiff (PAS) staining and Iectin histochemistry. The lumina of the ductal plate-like structures were comparatively small and heterogeneous in diameter around the portal veins, suggesting that the biliary structures may not be efficient for bile secretion. The epithelial cells of the gall bladder had a simple columnar shape and were a PAS-positive cytoplasm. Those of bile ducts near the hilus, including extrahepatic and hepatic ducts, were simple columnar or cuboidal cells, and had large lumina. The cytoplasm in these cells was PAS-positive. These phenotypes with the expression of lectin-binding sites were clearly different from those of the ductal plate-like structures in the liver proper, suggesting that the extrahepatic and intrahepatic biliary structures may have different developmental origins.     

Cytochemical studies on the localization and functional properties of calcium in anterior pituitary cells

The localization of calcium and its functional properties in anterior pituitary cells were studied using a potassium pyroantimonate technique. In all kinds of secretory cells, the precipitates of the calcium-pyroantimonate complex were distributed on the limiting membrane of the secretory granule. They were present also in the cytoplasmic matrix, the mitochondrial matrix, small smooth vesicles, coated vesicles, and in the nuclear euchromatin area. The precipitates were usually seen at the contact region between the limiting membranes of two adjacent secretory granules, or between the granule limiting membrane and the plasma membrane. When the tissues were incubated in the medium containing A23187 (10 microM) for 5 min, the deposits on the granule limiting membrane were increased in number and those on the mitochondrial matrix were decreased; the reaction products almost disappeared on the limiting membranes of the secretory granules after membrane fusion following single or multigranular exocytosis induced by A23187-treatment. In addition, small vesicles in the capillary endothelium contained reaction precipitates. Based on these results we propose a hypothetical model for the relationship between the localization of calcium and secretory activity.     

Cytochemical studies on the localization and functional properties of calcium in anterior pituitary cells

Summary The localization of calcium and its functional properties in anterior pituitary cells were studied using a potassium pyroantimonate technique. In all kinds of secretory cells, the precipitates of the calcium-pyroantimonate complex were distributed on the limiting membrane of the secretory granule. They were present also in the cytoplasmic matrix, the mitochondrial matrix, small smooth vesicles, coated vesicles, and in the nuclear euchromatin area. The precipitates were usually seen at the contact region between the limiting membranes of two adjacent secretory granules, or between the granule limiting membrane and the plasma membrane. When the tissues were incubated in the medium containing A23187 (10 M) for 5 min, the deposits on the granule limiting membrane were increased in number and those on the mitochondrial matrix were decreased; the reaction products almost disappeared on the limiting membranes of the secretory granules after membrane fusion following single or multigranular exocytosis induced by A23187-treatment. In addition, small vesicles in the capillary endothelium contained reaction precipitates. Based on these results we propose a hypothetical model for the relationship between the localization of calcium and secretory activity.This study was supported by grants from the Japan Ministry of Education     

The surface characteristics of the plasma membrane of the exocrine pancreas.

Regional differentiation of the plasma membrane and related structures of the exocrine pancreas has been studied ultrastructurally and cytochemically. Fixation with an osmium tetroxide-silver acetate solution produced abundant fine precipitates on the luminal and basal surface of the centroacinar but not the acinar cells. Staining with dialyzed iron (DI) revealed the heaviest concentration of anionic sites on the luminal plasma membrane of the acinar cells, including the surface of both the intercellular canaliculi and the main lumen. The reactive sites on the apical acinar plasmalemma appeared to consist of discrete globules. DI-reactivity of the lateral basal membranes was most prominent in the centroacinar cells and essentially absent in the acinar cells but was weak relative to that of the acinar-cell apical plasmalemma. The lamina lucida of the basement membrane of the duct stained with DI, but that of basement membrane under acinar cells did not. Sialidase digestion prior to DI staining abolished the staining of plasma membranes. These results indicate that duct epithelial cells, including most prominently the centroacinar cells, are chiefly responsible for electrolyte and fluid transport.     

Ultrastructure of the excretory tubes of the mite Macrocheles muscaedomesticae (Mesostigmata,Macrochelidae) with notes on altered mitochondria

The fine structure of the excretory tubes of the mesostigmatid mite Macrocheles muscaedomesticae were investigated. These paired tubes are partially ensheathed by fat body and invested throughout by a branching system of visceral muscles. The fine structure of the cells of the excretory tube is in general similar with only minor differences found throughout its length. The basal region of each epithelial cell of the excretory tube borders the hemocoel and is divided into many compartments by the extensive infolding of the plasma membrane. Mitochondria and vacuolar inclusions are often closely associated with these compartments. More than one morphological type of mitochondria was found distributed throughout the cells of the excretory tubes. The most commonly encountered type had well developed cristae and an electron dense matrix. Less commonly, mitochondria with somewhat poorly developed cristae and a translucent matrix often containing myelin-like figures of varying complexity were observed. It is suggested that they represent part of a normal process of mitochondrial degeneration. The apical region of the cell has a border composed of plate-like folds of the plasma membrane termed microlamellae. The lumen contains abundant granules of the excretory product.     

Light and electron microscopic study of the normal and pathological thymus of the rat

Summary A combined light- and electron microscopic study of the normal thymus of young-adult, male Osborne-Mendel rats and, to a lesser extent, of young (8 days) and older (7–8 months) animals has been made. The data obtained provide a base line for submicroscopic investigations being in progress of the thymus in pathological conditions (acute involution followed by regeneration and virus-induced tumours). In addition, attention is given to the question whether the various thymic components show morphological signs which could represent secretory activity.Two main types of cells with epithelial characteristics (desmosomes, tonofilaments, basal membrane) are distinguished on the basis of their form, location and cytological features. The reticular type is most frequent in the cortex and contains round, clear structures partly filled with dense and/or membranous material. The cisternae of the endoplasmic reticulum frequently are dilated. The other cell type which only is present in the medulla, shows a more polygonal form. The clear cytoplasm is marked by an abundance of vesicles, golgi complexes and clusters of vacuoles provided with microvilli.The submicroscopic findings in the lymphocytes confirm in general previous reports. The nucleus of the large lymphocytes contains one or two faintly defined nucleoli. The nuclear pores show an inner clear zone with a central knob. The relatively large cytoplasm is studded with polyribosomes; a small band beneath the plasma membrane is devoid of organelles. The chromatin material in the nucleus of the small lymphocytes is condensed at the periphery and in the center; nucleoli are rare. Well developed golgi apparatuses with centrioles are present; multivesicular bodies and lysosomes are not invariably found. The intranuclear formation of mitochondria was never encountered. Interruptions of the cell membrane and cytoplasmic fragmentation are observed. Different phases of the mitotic cycle of the thymocytes are illustrated. Evidence of epithelial cell lymphocyte transformation cannot be given by the study of normal tissue.Mesenchymal reticular cells with or without evident phagocytic activity are described and can be regarded as representing different types.The number of plasma cells increases with age. The endoplasmic cisternae of some of them contain a material which is condensed in a crystalline form and probably represents proteins.The tubular structures which usually are located at the periphery of the thymic lobuli also have been examined. The epithelial cells lining these structures show irregular microvilli and the intracytoplasmic granules as well as the vacuoles and the well developed endoplasmic reticulum are supposed to be signs of a secretory activity. Moderately dense material condensed in a crystalline form is present in the tubular lumina; the significance is not clear, however.Many small cortical bloodvessels are only partly enclosed by epithelial cells and the lymphocytes lie nearly in direct contact with the endothelial basement membrane. These findings are discussed in relation to the existence of a thymus-blood barrier as proposed in other reports.     

Light and electron microscopic study of the hindgut of the ant (Formica nigricans, hymenoptera): I. Structure of the ileum

The study of the ileum of the ant Formica nigricans by light and electron microscopy revealed the existence of three differentiated regions: proximal, middle, and distal ileum. The middle region constitutes most of the length of the organ. Its wall is made up by a folded simple epithelium lined by a cuticle, which is surrounded by an inner circular muscle layer and various external longitudinal muscle fibers adjacent to the hemolymph. A subepithelial space is present between the epithelium and the circular muscle layer. Epithelial cells show extensive infoldings of the apical, and to a lesser extent the basolateral plasma membrane. Apical infoldings are characterized by the presence of 10-nm particles (portasomes) covering the cytoplasmic side of the membrane. Mitochondria are abundant throughout the cytoplasm, although they mainly are present underneath the apical infoldings. Lateral borders of epithelial cells display an apical junctional complex, mainly constituted by a long and convoluted pleated septate junction. These features support the view that epithelial cells in the middle ileum are specialized in ion solutes and water transport. The proximal ileum connects with the ampulla into which the Malpighian tubules drain. As opposed to the middle ileum, epithelial cells of the proximal ileum show less developed basolateral infoldings, and the apical plasma membrane is devoid of portasomes and only occasionally invaginates. These features suggest that the proximal ileum plays no relevant role in ion and water transport. The distal ileum penetrates into the rectal sac, forming a valve-like structure; this region presumably controls the amount of urine reaching the rectum.     

Phorbol ester-induced podosomes in normal human bronchial epithelial cells

Spreading and migration of the basal cells neighboring a wound is essential for airway epithelial repair. To gain insight into the molecular mechanisms that govern these cellular processes, we asked whether normal human airway epithelial cells can form podosomes, a cellular structure discovered from cancer and mesenchymal cells that controls migration and invasion. Herein, we report that phorbol-12, 13-dibutyrate (PDBu), a protein kinase C activator, induced reorganization of cytoskeletal structure in primary normal human bronchial epithelial cells, and in normal human airway epithelial BEAS2B cells. Z-stack scanning confocal microscopy showed that PDBu-induced podosome-like structures contain actin-rich columns that arise from the ventral surface of the cell, and also revealed the presence of circular ruffles/waves at the dorsal cell surface. The molecular components of these cytoskeletal structures were determined with immunofluorescent staining. Using in situ zymography, we demonstrated that PDBu-induced podosomes were capable of degrading fibronectin-gelatin-sucrose matrix. PDBu also increased epithelial cell invasion across Transwell chamber. Podosomes and circular dorsal ruffles may be important for epithelial cell migration and invasion, thus contributing to respiratory epithelial repair and regeneration.     

THE MEMBRANE SYSTEM OF STREPTOMYCES CINNAMONENSIS

The plasma membrane bounding the cytoplasm immediately inside the hyphal wall of Streptomyces cinnamonensis may not retract from the hyphal wall. When it does retract from the wall, it appears as a single dark line in some sections and as 2 dark lines separated by a light zone in others. The membrane system consists of mesosomes and endomembrane structures. The mesosomes are those membrane structures whose derivatives appear to be the plasma membrane. The endomembrane structures, in the present report, are those that appear to have been derived from either the cytoplasm or the limiting membranes of the pre-existing membrane structures. All membranes seem capable of proliferation, a mechanism obviously responsible for the growth of the individual membrane structures and for the origin of many new ones. The mesosomes, according to their limits, are of 2 distinct types, the open mesosomes and the closed mesosomes. The open mesosomes are partially enclosed by limiting membranes, leaving the unenclosed sides limited by the wall. These mesosomes, when old, usually in aerial hyphae, may become attached to the wall and somewhat deleted from their limiting membranes. The individual membranes in their interior may appear disfigured. The closed mesosomes are completely surrounded by the limiting membranes. These mesosomes, as well as endomembrane structures, retain their original positions in the cytoplasm even in the older aerial hyphae, and the membranes in their interior usually remain practically as distinct in the aerial hyphae as they are in the substratal hyphae. New mesosomes and endomembrane structures are being formed continuously as the mycelium develops. The mesosomes, as a rule, occupy more or less the peripheral regions of the cytoplasm, while the endomembrane structures distribute themselves widely in the cytoplasm and also in the nucleoids. The appearance of the unit membranes, being double-layered (2 dark lines separated by a light line), is not consistent. The membranes as a whole are more resistant to degeneration than the cytoplasm and the nucleoids.     

Ultrastructure of the Rectum Epithelial Cells in the Mosquito Larvae, Anopheles sinensis Wiedemann

ABSTRACT The Ultrastructure of rectum epithelial cells in the mosquito larvae, Anopheles sinensis Wiedemann, was studied using electron microscope. The rectal epithelium forms rectal papillae composed of the absorptive cells and the surrounding basal cells. Moreover, rectal epithelium was covered with thin cuticular intima. Apical plasma membrane of the epithelial cells had infoldings and in between them, mitochondria developed into elongated shape were attached. In addition, the membrane infoldings reach down into the cell cytoplasm to form several layers of leaflet-like prolongations. On both sides of these prolongations were also large, well-developed mitochondria. Their formation was that mitochondria were attached to 3 μm length and 4–13 layers of membrane wrinkle lump. Many spherites, which are lamelated crystals that form an illusory structure in concentric circles inside of the cytoplasm of epithelial cell were observed. Basal plasma membrane in the epithelial cells was also wrinkled to promulgate into the cytoplasm to become basal infoldings producing canaliculi in basal labyrinth formation. There were many mitochondria scattered in these formations as well. On the bottom of the epithelial cell, basal lamina was attached and between basal lamina and muscle bundle was subepithelial space, which is connective tissue. Inside the space, tracheal and nerve cells were observed.     

Electron microscopic study on the thyroid gland of the salamander Hynobius nebulosus in the breeding season

Summary The thyroid gland of adult salamanders, Hynobius nebulosus, in the breeding season was studied by electron microscopy. The follicular cells are different in cell height and fine structures; the taller cells with many cell organelles and granules and the lower cells with a few cell organelles and granules are both present in the same follicle. In the cytoplasm, three types of membrane-bounded granules, namely, cytosomes, colloid droplets, and vacuolar bodies and circular membrane complexes occur. The vacuolar bodies are subdivided into two types; the ordinary type having loosely distributed particles and the specific type containing tubules and/or closely packed filaments, crystalloid structures, except for the particles. The chromophobe colloids within the Bensley-cells correspond to extremely large, ordinary type vacuolar bodies, while the Langendorff-colloid cells possess increased numbers of granular cisternae of endoplasmic reticulum and a ribosome-rich, dense cytoplasmic matrix but not extremely large colloid. The intracytoplasmic circular membrane complexes appear in the Golgi area of cytosome-rich cells. It is suggested that they originate from the Golgi apparatus which was activated to produce many cytosomes. Intranuclear inclusions consisting of microtubules and filaments and tight junctions between two adjacent lateral plasma membranes are occasionally encountered.     

A Light and Electron Microscope Study of the Epithelial Cells of the Gut of Fasciola hepatica L

The structure of the epithelial cells of the alimentary tract of Fasciola hepatica was investigated by means of light and electron microscopy. Tissue prepared for electron microscopy was fixed in 1 per cent osmium tetroxide, buffered with veronal to a pH of 7.4, and embedded in butyl methacrylate with 1 per cent benzoyl peroxide as a catalyst. Polymerisation was carried out at 60°C. The majority, if not all, the epithelial cells pass through both absorptive and secretory cycles. The free ends of absorptive cells possess fine protoplasmic processes that project into the lumen of the gut. These are apparently concerned with the absorption of nutriment. In electron micrographs, the protoplasmic (absorptive) processes are frequently seen to be in the form of tubular loops both ends of which arise from the same cell. The free end of a process is often expanded into a ribbon-like structure. Each process possesses an external limiting membrane and an internal membranous ultrastructure. When a cell becomes glandular in function, the protoplasmic processes seem to become less numerous. The plasma membrane is invaginated into the basal part of an absorptive cell. In the neighbourhood of the lumen of the gut where two tall cells are in contact, bands of amorphous cytoplasmic material are in contact with each cell membrane.     

Spatial structure of mitochondria and ER denotes changes in cell physiology of cultured tobacco protoplasts

The structure of mitochondria and of the endoplasmic reticulum (ER) in mesophyll protoplasts and regenerated cells was studied in vivo using the dye DiOC₆(3) (3,3'-dihexyloxacarbocyanine iodide) and confocal laser scanning microscopy (CLSM). The relation to the cell's physiology was investigated using a hormone-based model system for elongation and division. The structure of the mitochondria and of their population depends on the status of the cell. In freshly isolated protoplasts small spherical mitochondria are clustered around the nucleus and the chloroplasts. During the first 4 days of culture they are transformed into long vermiform organelles which distribute evenly throughout the cytoplasm. In a medium containing only auxins, cells then enter a period of expansion. Their mitochondria retain the same structure but increase in quantity. In a medium with auxins and cytokinins cells start dividing. Their mitochondria typically become numerous and very small, and are distributed throughout the cytoplasm. Both types of organization were observed during weeks of ongoing expansion or division. The ER is always present as a network close to the cell membrane. In freshly isolated protoplasts a considerable part of the ER is clustered around the chloroplasts, the remaining part of the network has a reduced complexity and is partly broken. During subsequent protoplast culture the network grows into a complex web with fine meshes incorporating lots of plate-like structures. This is the case in elongating cells as well as in dividing cells. Finally, the ER looks similar to the structure found in epidermal cells of the intact plant.     

Stimulation of the gastrin-cholecystokinin(B) receptor promotes branching morphogenesis in gastric AGS cells

Epithelial organization is maintained by cell proliferation, migration, and differentiation. In the case of the gastric epithelium, at least some of these events are regulated by the hormone gastrin. In addition, gastric epithelial cells are organized into characteristic tubular structures (the gastric glands), but the cellular mechanisms regulating the organization of tubular structures (sometimes called branching morphogenesis) are uncertain. In the present study, we examined the role of the gastrin-cholecystokinin(B) receptor in promoting branching morphogenesis of gastric epithelial cells. When gastric cancer AGS-G(R) cells were cultured on plastic, gastrin and PMA stimulated cell adhesion, formation of lamellipodia, and extension of long processes in part by activation of protein kinase C (PKC) and phosphatidylinositol (PI)-3 kinase. Branching morphogenesis was not observed in these circumstances. However, when cells were cultured on artificial basement membrane, the same stimuli increased the formation of organized multicellular arrays, exhibiting branching morphogenesis. These effects were reversed by inhibitors of PKC but not of PI-3 kinase. We conclude that, in the presence of basement membrane, activation of PKC by gastrin stimulates branching morphogenesis.     

Analytical electron microscopic study of mitochondrial inclusions in canine myocardial infarcts.

An analytical electron microscopic study, utilizing scanning transmission electron microscopy and energy-dispersive x-ray spectroscopy, was made of two types of mitochondrial inclusions identified in canine myocardial infarcts. The data were obtained from thin sections of tissues that were fixed in aldehyde, osmicated and embedded in epoxy resin. Calcium peaks of variable intensity were detected in inclusions which contained very electron-dense spicular material and which were localized to muscle cells at the peripheries of the infarcts. These findings indicate that the spicular inclusions represent early stages in the process of mitochondrial calcification in myocardial infarcts. In contrast, calcium or other trace elements were not detected in moderately electron-dense amorphous inclusions which were present in mitochondria of muscle cells throughout the infarcts. With the tissue preparative techniques employed, the possibility cannot be excluded that the amorphous inclusions contained calcium, either in small amounts or in a readily diffusable state, in vivo. The data, however, are in accord with the previously advanced hypothesis that the amorphous inclusions represent precipitates of denatured mitochondrial protein formed during the evolution of irreversible cellular injury. This study provides further evidence that analytical electron microscopy can yield important information regarding the nature of various inclusions occurring in normal and diseased tissues.     

Sodium localization in the choroid plexus

Summary The localization of sodium ion in the cat choroid plexus was studied by use of potassium pyroantimonate. The precipitates formed by the potassium pyroantimonate occur mostly on the plasma membrane in the epithelial cell and occasionally in the perivascular space. The precipitates in the epithelial cell are most numerous at the apical surface, particularly on the microvilli, and least in number at the basal and lateral surfaces. In the endothelial cell, the dense precipitates are situated on the plasma membrane as well as on the limiting membrane of the pinocytotic vesicle. Although the dense precipitates are sometimes situated on the external surface of the plasma membrane of the epithelial cell, most of them are localized on the internal surface of the plasma membrane. A similar localization of the precipitates is to be seen on the plasma membrane of the erythrocyte. When the cerebrospinal fluid/plasma ion ratio and potential gradients across the choroid plexus are considered, the precipitates on the plasma membrane would suggest a localization of sodium needed for the activation of ATPase.

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Zusammenfassung Die Lokalisation des Natriumions im Plexus chorioideus der Katze wurde mit Hilfe von Kaliumpyroantimonat untersucht. Die durch Kaliumpyroantimonat gebildeten Niederschläge treten meistens an der Plasmamembran in den Epithelzellen und gelegentlich im perivaskulären Raum auf. In den Epithelzellen kommen die Niederschläge am zahlreichsten an der apikalen Oberfläche vor, besonders an den Mikrovilli, am geringsten an den basalen und lateralen Oberflächen. In der Endothelzelle liegen die dichten Niederschläge an der Plasmamembran und an der Grenzmembran der Pinozytosebläschen. Einige der dichten Niederschläge befinden sich an der äußeren Oberfläche der Plasmamembran der Epithelzellen, die meisten aber an der inneren Oberfläche der Plasmamembran. Eine ähnliche Lokalisation der Niedersschläge wurde an der Plasmamembran des Erythrozyten festgestellt. Wenn man das Liquor Plasma-Ionenverhältnis und die Potentialgradienten am Plexus chorioideus in Betracht zieht, liegt es nahe, die nachgewiesene Lokalisation des Natriums auf eine Aktivierung von ATPase zu beziehen.

     

Changes in membrane lipid composition cause alterations in epithelial cell-cell adhesion structures in renal papillary collecting duct cells

In epithelial tissues, adherens junctions (AJ) mediate cell-cell adhesion by using proteins called E-cadherins, which span the plasma membrane, contact E-cadherin on other cells and connect with the actin cytoskeleton inside the cell. Although AJ protein complexes are inserted in detergent-resistant membrane microdomains, the influence of membrane lipid composition in the preservation of AJ structures has not been extensively addressed. In the present work, we studied the contribution of membrane lipids to the preservation of renal epithelial cell-cell adhesion structures. We biochemically characterized the lipid composition of membranes containing AJ complexes. By using lipid membrane-affecting agents, we found that such agents induced the formation of new AJ protein-containing domains of different lipid composition. By using both biochemical approaches and fluorescence microscopy we demonstrated that the membrane phospholipid composition plays an essential role in the in vivo maintenance of AJ structures involved in cell-cell adhesion structures in renal papillary collecting duct cells.     

Association of stomatin with lipid-protein complexes in the plasma membrane and the endocytic compartment

Membrane protein - microvilli - lipid raft - GPI-anchored protein - epithelial cell The 31 kDa integral membrane protein stomatin (protein 7.2b) has a monotopic structure and a cytofacial orientation. We have shown previously that stomatin is located in plasma membrane protruding structures and forms high-order homo-oligomers in the human epithelial cell line UAC, suggesting that this protein has a structural function in the cortical morphogenesis of the cells. It is also present in a pool of juxtanuclear vesicles. In this study, we show that stomatin colocalizes with the GPI-anchored proteins placental alkaline phosphatase (PLAP) and membrane folate receptor alpha (MFRalpha) endogenously expressed in UAC cells. This observation enabled us to demonstrate two different aspects of stomatin. First, using anti-PLAP antibody internalization, we show that the peri-centrosomal vesicles containing stomatin correspond to a subset of endosomes, which can also be labeled with the late endosomal/lysosomal marker LAMP-2. Secondly, we found that stomatin is partially present in detergent-insoluble membrane domains and co-patches with PLAP on the plasma membrane, after cross-linking of PLAP by antibodies. These data indicate that stomatin and GPI-anchored proteins are linked through lipid rafts and undergo the same sorting events. We propose that stomatin, through its affinity for lipid rafts, functions in concentrating GPI-anchored proteins in membrane microvillar structures. Consistent with this hypothesis, we found that stomatin is expressed exclusively in microvilli of the apical membrane in polarized Madin-Darby canine kidney (MDCK) cells.