Filaments and rod-shaped tubulated bodies in the endothelia of anterior cerebral arteries in young rats

Summary Endothelia of the anterior cerebral arteries in rats aged 1 to 3 days were studied. Thin (about 50–90 Å) and thick (about 100–110 Å) filaments are present in the endothelia. Numerous spherical- or rod-shaped bodies, measuring approximately 0.07 to 0.3 m in diameter and up to 0.6 m in length occur in the endothelial cells. These bodies contain a tubular structure. The diameter of the individual tubules is about 200 Å. The present observations suggest that spherical- or rod-shaped inclusions are first synthesized in the rough endoplasmic reticulum and thereafter these materials are transported into the Golgi complex for maturation. A small number of the inclusions, however, may originate directly from the rough endoplasmic reticulum and not pass through the Golgi apparatus.A part of this study was demonstrated at the 70th Versammlung der Anatomischen Gesellschaft in Düsseldorf, April, 1–5, 1975The author thanks Mr. Tatsuro Fukushima for preparation of photographs     

Connections between dictyosomes,ER and GERL in cotyledons of mung bean (Vigna radiata L.)

Summary The connections and structural inter-relations of dictyosomes and endoplasmic reticulum (ER) in cotyledons of germinating mung beans were studied using thick (0.3 m) sections of aldehyde fixed, zinc iodide-osmium tetroxide (ZIO) impregnated tissue. The sections were examined by conventional (100 kV), rather than high voltage, transmission electron microscopy.Continuity of cisternal ER with tubular ER was confirmed and a direct connection of tubular ER totrans dictyosome cisternae was observed as were GERL networks associated withtrans dictyosome cisternae.Dictyosomes also gave rise to an extensive system of very fine tubules (10–20 nm diam) which have not been described previously in plant tissue. These tubules, which originated at thetrans dictyosome face, extended throughout the cytoplasm and were found connected to cisternal ER and tubular ER.The implications of these observations are discussed with regard to present ideas concerning endomembrane flow and protein sorting by the Golgi apparatus.     

The tubular endoplasmic reticulum in the amoebocytes of the shell-regenerating snail,Helix pomatia L.

Summary The tubular endoplasmic reticulum has been studied in the amoebocytes which are present in the connective tissue of the hepatopancreas of the snail, Helix pomatia. The reticulum is similar to that previously described within the glandular cells of the hepatopancreas. Two distinct components are recognizable in the reticulum—central main tubules approximately 100 m in diameter and connecting tubules about 20 m in width. The profile of this tubular network in cross-sections appears as a very regular, apparently crystalline array. The tubules are intimately associated with dense granular material, dense bodies and with mitochondria. The possible function of the tubular endoplasmic reticulum is discussed.This investigation was supported by grants from the Swedish Natural Science Research Council, which are gratefully acknowledged. I am indebted to Miss G. Drugge for her technical assistance.     

Tubular early endosomal networks in AtT20 and other cells

Using horseradish peroxidase (HRP) as a fluid-phase endocytic tracer, we observed through the electron microscope numerous tubular endosomes with a diameter of 30-50 nm and lengths of greater than 2 microns in thick sections (0.2-0.5 microns) of AtT20 cells. These tubular endosomes are multibranching and form local networks but not a single reticulum throughout the cytoplasm. They are sometimes in continuity with vesicular endosomal structures but have not been observed in continuity with AtT20 cell late endosomes. Tubular endosomal networks are not uniformly distributed throughout the cytoplasm, but are particularly abundant in growth cones, in patches below the plasma membrane of the cell body, and surrounding the centrioles and microtubule organizing center (MTOC). Tubular endosomes at all these locations receive HRP within the first 5 min of endocytosis but approximately 30 min of endocytosis are required to load the tubular endosomal networks with HRP so that their full extent can be visualized in the electron microscope. After 10 min of endocytosis, complete unloading occurs within 30 min of chase, but between 30 and 60 min are required to chase out all the tracer from the tubular endosomes loaded to steady state during 60 min endocytosis of 10 mg/ml HRP. In interphase cells, neither the loading nor unloading of tubular endosomes depends on microtubules but in cells blocked in mitosis by depolymerization of the mitotic spindle with nocodazole, HRP does not chase out of tubular endosomes. The thread-like shape of tubular endosomes is not dependent on microtubules. Furthermore, HRP is delivered to AtT20 tubular endosomes at 20 degrees C. All these properties indicate that AtT20 cell tubular endosomes are an early endocytic compartment distinct from late endosomes. Tubular endosomes like those in AtT20 cells have been seen in cells of the following lines: PC12, HeLa, Hep2, Vero, MDCK I and II, CCL64, RK13, and NRK; they are particularly abundant in the first three lines. In contrast, tubular endosomes are sparse in 3T3 and BHK21 cells. The tubular endosomes we have observed appear to be identical to the endosomal reticulum observed in the living Hep2 cells by Hopkins, C. R., A. Gibson, H. Shipman, and K. Miller. 1990.     

Ultrastructural analysis of transitional endoplasmic reticulum and pre-Golgi intermediates: a highway for cars and trucks

Cargo selection and export from the endoplasmic reticulum occurs at specialized sites in cells. Export complexes consist of transitional elements of the endoplasmic reticulum and pre-Golgi intermediates. It is generally assumed that 60 to 80 nm initially COPII-coated vesicles derived from the transitional endoplasmic reticulum are the main carriers for transport of cargo to the Golgi apparatus. We have analyzed on serial ultrathin sections the transitional endoplasmic reticulum and pre-Golgi intermediates of beta cells of islets of Langerhans in mouse pancreas. In addition to Golgi-associated complexes, others were observed in the periphery of the cells or close to the nuclear envelope. Upon three-dimensional reconstruction, non-coated ribosome-free tubules with an average diameter of 115 nm (range 60–195 nm) and a length of up to 500 nm were detected in the pre-Golgi intermediates in addition to small vesiculo-tubular elements. Furthermore, evidence was found that the large tubular elements may directly arise from transitional elements of the endoplasmic reticulum. In a given cell, pre-Golgi intermediates were found to be composed solely of small vesiculo-tubular elements or additionally of tubules or solely of tubules. Immunogold labeling for proinsulin indicated that the large tubular elements contained cargo and thus appear to take part in ER-to-Golgi transport.Presented at the 43rd Symposium of the Society for Histochemistry, Vienna, Austria, 27–29 September 2001     

Fine-structural characteristics of the liver of the cod (Gadus morhua macrocephalus), with special regard to the concept of a hepatoskeletal system formed by Ito cells

Summary The liver of the adult cod (teleost, Gadus morhua macrocephalus) was observed with transmission and scanning electron microscopy. Hepatocytes of this animal are extremely large (about 50–70 m in diameter) and characterized by numerous large lipid droplets (5–15 m in diameter) showing fluorescence for vitamin A, though weaker than that of Ito cells. No Kupffer cells were recognized in the endothelial lining. Collagen fibrils are sparse in the perisinusoidal space, while Ito cells stretching their long cytoplasmic processes to the perisinusoidal as well as interparenchymatous spaces are frequent. There are a number of large desmosomes between the cytoplasmic processes, and all Ito cells seem to be interconnected by these junctions. The cytoplasm in the cell bodies and cell processes is occupied by bundles of intermediate filaments, while organelles are poorly developed. Small vesicles and caveolae are arranged along the plasma membrane. Scanning electron microscopy shows distinct three-dimensional networks consisting of Ito cells and their processes, which might be supporting elements of the liver tissue. We wish to emphasize the concept of this hepatoskeletal system.     

Nerve-purkinje fiber relationship in the moderator band of bovine and caprine heart

Summary The moderator band in the heart of the ox and goat contains bundles of Purkinje fibers and nerve fibers separated by connective tissue. The axons are mostly unmyelinated and embedded in the cytoplasm of Schwann cells.Small bundles of axons run close to the Purkinje fibers. The axons dilate into varicosities 0.5 to 1.6 in diameter (mean 0.95 ), containing three types of vesicles: 1) agranular vesicles with a diameter of 400–500 Å, 2) large dense-cored vesicles with a diameter of 800–1200 Å, 3) small dense-cored vesicles with a diameter of 500 Å. Most varicosities contain agranular vesicles together with a few large dense-cored vesicles.The gap between the varicosities and the nearest Purkinje fiber is unusually wide and normally varies between 0.3 and 0.8 . No intimate nerve-Purkinje fiber contacts, with a cleft of 200 Å, were observed.     

Quantitative measurement of glucose-6-phosphate dehydrogenase in cortical fractions of the rabbit nephron

Summary A quantitative fluorimetric method is described for estimating the activity of glucose-6-phosphate dehydrogenase in isolated fractions of rabbit nephron from the superficial part of the renal cortex: macula densa, proximal convoluted tubule, distal convoluted tubule and glomerulus. The mean activity in the macula densa region was 2.5×10^–18 mol/m³/min, which was about twice the mean activity of the proximal and distal tubular cells and four times that of the glomeruli. As glucose-6-phosphate dehydrogenase is located in the cytoplasm, the average cytoplasmic enzyme activity of the different tubular cells was calculated: macula densa activity was 4.0×10^–18 mol/m³/min whilst proximal tubular cells showed about a third, and distal tubular cells about a quarter of this activity.     

Observations on tubules derived from the endoplasmic reticulum in leaf glands ofPhaseolus vulgaris

Summary Tubular systems present in bean leaf glands have been studied electron microscopically. Ordered arrays of small tubules (290 Å in diameter) arise from the endoplasmic reticulum in early stages of gland development and remain connected to it. Subsequently larger tubules (560–660 Å in diameter) appear among the smaller tubules and gradually replace many of them. The large tubules are not connected to the endoplasmic reticulum. They contain an electron dense material and their walls exhibit a patterned substructure. In older gland cells the bundles of large tubules run randomly through the cytoplasm. The relationship of the two types of gland tubules to conventional microtubules has been examined morphologically and experimentally. The small tubules have larger diameters and thicker walls than microtubules. Neither type of gland tubule is affected by low temperature or colchicine, or, in thin sections, by pepsin digestion. This suggests that these tubules are not closely related chemically to either cytoplasmic or ciliary microtubules. The two systems of tubules are closely associated with prominent protein vacuoles in the gland cells, but are not directly connected to them.This work was supported in part by grant no. GB-6161 from the National Science Foundation.     

Filament-carrying tubules demonstrated by negative staining in various mammalian cell types

Summary Among other tubular elements obviously representing the endoplasmic reticulum, tubules carrying filaments with a diameter of about 4 m were found in negatively stained specimens of a variety of mammalian cell strains. They have been found in strains of epithelial and fibroblastic, normal and malignant, human and animal origin. So far, it is not possible to identify the filament-carrying tubules with equivalent structures in thin sections.     

Evidence for two endocytic transport pathways in plant cells

Intracellular trafficking of endocytic vesicles in eukaryotes varies with the nature of the cargo molecules and the targeted organelle, and proceeds through an intricate network of internal endosomal compartments. However, the path for fluid-phase endocytosis (FPE), the internalization of external solutes from the apoplast via plasmalemma generated vesicles, remains unresolved despite some indication of a direct transport route to the vacuole. To test this hypothesis, we made use of the membrane-impermeable Na-dependent fluorescent marker Coro-Na in combination with the fluorescent membrane marker FM 4-64 and confocal laser scanning microscopy. When protoplasts from sweet lime juice cells were incubated in Na-free solution, FM 4-64, Coro-Na, and 200 mM sucrose, two distinct types of labeled vesicles were evident. A set of vesicles (1 μm in diameter) was intensely labeled with Coro-Na and to a lesser extent with FM 4-64, whereas the second type of 1–7 μm structures appeared exclusively labeled with FM 4-64. These data demonstrate the parallel functioning of two endocytic pathways in plant cells. In one system, a set of small endocytic vesicles merge with the endosome, whereas a separate set of vesicles fuse to form larger vesicles independent from the endosome. Although it is likely that both vesicle systems eventually contribute to solutes reaching the vacuole, given their size (1–7 μm), and based on previous observations of endocytic vesicle formation protruding from the plasmalemma and merging with the vacuole, we conclude that these latter vesicles constitute the primary FPE vesicle system.     

Immunohistological studies of masked indoleamine cells in the area postrema of the rat

Summary Masked indoleamine cells (MICS) in the area postrema and adjacent areas in the rat were immunohistochemically studied (the peroxidase-antiperoxidase method) using a serotonin antiserum. After pretreatment with nialamide (200–300 mg/kg), immunoreactive MICS could be observed. They were small cells (about 12 m in diameter) with several processes and were distributed in nearly all parts of the area postrema and also in the nucleus tructus solitarii. Following a single intraventricular injection of 75 g 5,6-dihydroxytryptamine, the immunoreactivity of these cells conspicuously decreased for several days. The submicroscopical structure of the cells was investigated using immunoelectron microscopy. Immunoreactive products were observed in the cytoplasm as particles with a diameter of 25–40 nm and high electron density, but these were not found in the nucleus or cell organelles.This work was supported by a grant (No. 57214028) from the Ministry of Education, Science and Culture, Japan     

Helical structure in the apical tubules of several absorbing epithelia

Summary Unique and highly ordered structures were discovered in the so-called apical tubules of several absorbing epithelia (kidney proximal tubule, visceral yolk sac and ductuli efferentes) fixed in situ with a mixture of formaldehyde, glutaraldehyde and osmium tetroxide. The apical tubules were especially numerous in the apical cytoplasm, in addition to the invaginations of the apical plasma membrane, newly formed endocytic vesicles and large endocytic vacuoles. They showed a cylindrical structure (80 nm in diameter) limited by a smooth membrane. Helically wound parallel rows of particles (11 nm in diameter) were found in the apical tubules in close proximity to their limiting membrane. The structure of the helix was determined by following the rows through serial sections and semithin sections, and was found to be a left-handed quadruple helix. These particles surround an electron-lucent cylinder (35 nm in diameter), containing at its center a single row of particles (9 nm in diameter). The apical tubules with the luminal specializations were not seen in continuity with the apical plasma membrane, but were frequently connected with the large endocytic vacuoles, which were present in the deeper levels of the apical cytoplasm. From these observations, it is suggested that the apical tubules are not derivatives of the apical plasma membrane; rather, they represent an intracellular compartment, which is morphologically related to the large endocytic vacuoles.     

Intranuclear inclusions in the developing neurons of the rat cuneate nuclei

Summary The ultrastructure of intranuclear rodlets, microtubules, fibrillar lattices and membranous inclusions found in the developing cuneate nuclei of rats is described. Rodlets, ranging in diameter from 96–312 nm and in length from 1–2 m, are made up of tightly packed straight filaments measuring 5–8 nm in diameter. Microtubules with a diameter of 26 nm are clustered together. Fibrillar lattices are made up of fibrils with a diameter of 9 nm arranged in layers or sets. Two to nine sets make up a lattice, with a maximum width of 68 nm, in which the adjacent sets are arranged at an angle to each other. Rodlets and fibrillar lattices occur in 6.8% of the neurons. Membranous inclusions, reported here for the first time in normal neurons, are of 2 types: small vesicles of 0.1–0.6 m and large vacuoles measuring 1–2 m. Both types are bounded by either a single or a double membrane and generally have an electron lucent content. Membranous inclusions occur in 25.3 % of the neurons. Changes in the frequency of occurrence of the various intranuclear inclusions in the course of postnatal development are also reported.     

Filaments and microtubules in the cytoplasm of the granulosa cells from the human follicle

Summary The cytoplasm of granulosa cells in human primordial follicles from normal women shows a system of filaments and microtubules. Filaments about 70–150 Å in diameter and several m in length can be seen as bundles or irregularly distributed. Microtubules about 200 Å in diameter are predominantly oriented in paranuclear regions. The relationships between cytoplasmic filaments and microtubules in granulosa cells and those of Sertoli cells are briefly discussed.     

Hemopoietic sites and development of eosinophil granulocytes in the loach,Misgurnus anguillicaudatus

Summary Unique eosinophils, each of which contained only one eosinophilic granule, have been found in the peripheral blood of the loach (itMisgurnus anguillicaudatus). Several loach organs have been studied by light and electron microscopy to determine the hemopoietic site of this cell type. Eosinophils are produced mainly in the spleen and to a small extent in the kidney, but not in other organs.Presumed myeloblasts are identified as large lymphoid cells containing a number of small-dense granules (diameter, 0.12–0.16 m) in the cytoplasm. These granules have been observed throughout eosinophilopoiesis but they are most abundant in the promyelocyte stage. The largest cells have been identified as myelocytes which contain a number of large granules (diameter, 0.7–1.4 m) with electron-dense crystalline cores. These large granules are present from the myelocyte to metamyelocyte stage. Metamyelocytes differ from myelocytes in having more large granules. Mature eosinophils are morphologically similar to metamyelocytes but are characterized by the presence of only one very large electron-dense granule (diameter, 2.5–2.8 m) with a crystalline core.The nature of these granules has been studied by enzyme digestion using pepsin and trypsin. The results indicate that the crystalline cores are almost pure protein.     

Ultrastructure of the osphradium of Aplysia californica

Summary The osphradium of Aplysia californica, a sensory organ, is a small yellow-brown epithelial patch located in the mantle cavity immediately anterior to the rostral attachment of the gill. Scanning electron microscopy reveals a round ellipsoid structure of 0.6–1 mm in diameter with a central, occasionally folded, sensory epithelium. The central area is covered with microvilli and surrounded by a densely ciliated epithelium. Transmission electron micrographs show that the columnar supporting cells in the sensory epithelium contain an abundance of apical pigment granules and microvilli. Between the epithelial-supporting cells, the putative sensory elements consist of thin neurites (0.4–1.5 m in diameter) that reach the sea-water side of the osphradium. The neurites contain many neurotubules, mitochondria, vesicles and cilia in their apices. The nerve endings originate from cell bodies up to 40 m below the epithelium or in the osphradial ganglion itself, as revealed by electron microscopy and retrograde labeling with Lucifer yellow. There appear to be two populations of putative sensory cells, a large population of heavily stained cell bodies 4–10 m in diameter and a few scattered cells of large diameter (25–60 m). Following lanthanum impregnation, septate junctions can be seen between all types of cells in the epithelium, 3–5 m below the sea-water surface. This study provides new information for further investigation of osmo- and mechanosensation in Aplysia californica.     

Fine structure study on the development of trabeculae in the siphonous green algaCaulerpa simpliciuscula C. Ag.

Summary Bundles of fibrils and tubular structures were found to be associated with growing trabeculae ofCaulerpa simpliciuscula. In the rhizome tips, the bundles had an average diameter of 0.1 to 0.3 m, and a length greater than 10 m. The fibrils in the bundles were oriented in a strictly parallel fashion, with an individual thickness of 3–8 nm. The development of trabeculae started with the apposition of material of low electron density onto the bundles, which in this way became the inner skeleton of the trabeculae.Although fibre bundles with the same internal structure also occurred in the frond tip, these rarely contributed to trabecula formation. In the frond tips a different type of bundle with paracrystalline structure was found associated with the trabecular surface, forming a temporary connection between adjacent trabeculae. Permanent connection was achieved by deposition of further layers of trabecular material. These bundles in the frond tip consisted of two layers of tubular elements with a wall thickness of 80 Å and an inner diameter of 20–25 nm.Both fibre bundles and tubular bundles appear to contribute to trabecula formation. The similarity of these structures to the vacuolar inclusions observed in other siphonous algae is discussed.     

Structure of multinucleated smooth muscle cells of the ascidian Halocynthia roretzi

Summary Cells isolated from ascidian smooth muscle were about 1.5–2 mm in length. Each contained 20–40 nucle in proportion to cell length. The cytoplasm was characterized by the presence of an enormous quantity of glycogen particles, tubular elements of sarcoplasmic reticulum coupled to the cell membrane, and conspicuous contractile elements. Thick and thin filaments had diameters of about 14–16 nm and 6–7 nm, respectively. The population density of the thick filaments was much higher (mean 270/m² filament area) than in vertebrate smooth muscles. The ratio of thick to thin filaments was about 16. All the thick filaments were surrounded by a single row of 5–9 thin filaments forming a rosette, and cross-bridges with periodicities of 14.5 and 29 nm were found between them. The contractile apparatus consisted of numerous myofibrils which were arranged nearly along the cell axis and were separated from each other by a network of 10-nm filaments. The myofibrils further consisted of many irregularly arranged sarcomerelike structures, each of which was comprised of a small group of thick and thin filaments with attached dense bodies.     

Changes in endoplasmic reticulum during spermiogenesis in the mouse

Summary Changes in the endoplasmic reticulum of mouse spermatids during spermiogenesis were examined by scanning electron microscopy, applying the OsO₄-DMSO-OsO₄ method, which permits 3-dimensional observation of cell organelles. At the same time, the endoplasmic reticulum was stained selectively by the Ur-Pb-Cu method, and 0.5 m-thick sections were prepared for observation by transmission electron microscopy. The results demonstrated stereoscopically the mode of disappearance of the endoplasmic reticulum. In spermatids of the early maturation phase, the endoplasmic reticulum was of uniform diameter, branched and anastomosed, forming a complicated three-dimensional network throughout the cytoplasm. A two-dimensional net was also noted to have formed just beneath the plasma membrane and about Sertoli cell processes invaginating the spermatid cytoplasm. As spermiogenesis progressed, the spread-out endoplasmic reticulum gradually aggregated to form a condensed, glomerulus-like structure consisting of a very thin endoplasmic reticulum connected to the surrounding endoplasmic reticulum. This structure corresponds to the so-called radial body. Thus, the endoplasmic reticulum may aggregate, condense, be transformed into a radial body, and be removed from the cytoplasm. The two-dimensional endoplasmic reticulum-net, just beneath the plasma membrane and surrounding processes of Sertoli cells, disappeared in spaces where the three-dimensional endoplasmic reticulum network was scarce. Both the two-dimensional endoplasmic reticulum-net structure and the three-dimensional endoplasmic reticulum network disappeared at the same time, indicating that they may be closely related.