An electron microscope autoradiographic study of the carbohydrate recognition systems in rat liver. I. Distribution of 125I-ligands among the liver cell types

Electron microscope autoradiography was used to study the cellular localization of seven glycoproteins rapidly cleared from the circulating plasma of rats and taken up by the liver. 1 and 15 min after intravenous administration of the 125I-glycoproteins, livers were fixed in situ by perfusion and processed for autoradiography. Autoradiographic grains in the developed sections were found to represent the intact 125I-ligand. A quantitative analysis of the distribution and concentration (density) of autoradiographic grains over the three major cell types of the liver was then performed. Three molecules, asialo-fetuin, asialo-orosomucoid, and lactosaminated RNase A dimer, the oligosaccharide chains of which terminate in galactose residues, were bound and internalized almost exclusively (greater than 90%) by hepatocytes. Conversely, four molecules, the oligosaccharide chains of which terminate in either N-acetyl-glucosamine (agalacto-orosomucoid) or mannose (ahexosamino-orosomucoid, preputial beta-glucuronidase, and mannobiosaminated RNase A dimer), were specifically bound and internalized by cells lining the blood sinusoids--that is, by Kupffer cells and endothelial cells. Endothelial cells were two to six times more active (on a cell volume basis) than were Kupffer cells in the internalization of these four 125I-ligands. Mannose and N-acetylglucosamine-terminated glycoproteins competed with each other for uptake into either endothelial cells or Kupffer cells, indicating that a single system recognized mannose or N-acetyl-glucosamine residues. Finally, agalacto-orosomucoid and ahexosamino-orosomucoid were also associated with hepatocytes, but competition experiments utilizing excess asialo-orosomucoid demonstrated that residual galactosyl residues were responsible for this association.     

Intracellular distribution of GABA in the rat anterior pituitary. An electron microscopic autoradiographic study

We studied the internalization and intracellular distribution of [3H] GABA in rat anterior pituitary cells. Electron microscopic autoradiography of anterior pituitary fragments or dispersed pituitary cells incubated with [3H] GABA showed that lactotrophs and, to a lesser extent, somatotrophs were the only cells that contained radioactive grains. Grain density analysis performed on dispersed pituitary cells after a pulse-chase experiment (10 min pulse and then change to a medium without radioactive GABA for various periods up to 2 h) revealed that GABA internalized by lactotrophs was distributed in various intracellular membranous organelles. Of the cell compartments examined, plasma membrane, Golgi apparatus, mitochondria and secretory granules had different time-dependent labeling patterns. The highest grain density values were associated with plasma membrane (at the first chase time) and the Golgi apparatus. Mitochondria and secretory granules also showed significant grain density values. A similar pattern of distribution was observed when fragments of prolactin-secreting pituitary adenomas were incubated with [3H] GABA. These results provide morphological data on the cellular specificity and intracellular distribution of GABA in anterior pituitary cells.     

An electron microscope autoradiographic study of DOC conversion to corticosterone in the rat adrenal cortex

Summary Seven thymuses from children between 1 and 12 years were examined by electron microscopy. Biopsies had been taken during surgical correction of congenital heart defects.In all cases we found interdigitating reticulum cells (IRC) in the medulla and inner cortex. These cells resembled the IRC which have been described previously in the thymus-dependent regions of the spleen and lymph node. They were characterized by an irregularly shaped nucleus, narrow cisterns of rough endoplasmic reticulum, and widespread interdigitation and invagination of the cell membrane. The surfaces of the IRC were in close contact with those of small lymphocytes, sometimes polysomal lymphatic cells, epithelial cells, and occasionally with those of lymphatic cells containing ergastoplasm.The IRC is apparently a specific cell of thymus-dependent regions. It may be that the IRC in the thymus, lymph node, and spleen contribute to the microenvironment needed for the differentiation of T-cells.Supported by the Deutsche Forschungsgemeinschaft, SFB 111/CII and III.—We wish to thank Miss M. Neubert and Mrs. R. Köpke for their technical assistance and Mrs. M. Soehring for her help with the translation.     

A quantitative electron microscope autoradiographic study on 125I-human choriogonadotropin internalization in bovine luteal slices

Very few silver grains were seen on the cell surface and none intracellularly after incubation for 2 h at 4 degrees C. However, numerous grains were seen in various subcellular organelles when the tissues were incubated for 2 h at 22 degrees or 38 degrees C. The grain distribution was qualitatively similar, but quantitatively, there were fewer grains at 22 degrees than at 38 degrees C. Co-incubation of 125I-hCG with excess unlabelled hCG resulted in the virtual disappearance of silver grains from all the subcellular organelles. Excess unlabelled human luteinizing hormone (but not follicle-stimulating hormone or prolactin) inhibited the appearance of silver grains in luteal tissue. There were no silver grains in bovine liver slices incubated with 125I-hCG. The plasma membrane-associated grains progressively decreased, while intracellular organelle-associated grains increased with time at 38 degrees C. There were no grains in nuclei at 5 min, but they appeared at 10 min and increased until 120 min. After correction for radiation spread by three-step mask analysis, smooth endoplasmic reticulum and mitochondria did not contain any grains. The grain density was the highest in Golgi, followed by lysosomes, rough endoplasmic reticulum, nuclei, and plasma membranes after incubation for 2 h at 38 degrees C. Thus, the electron microscope autoradiography approach confirmed our biochemical data in the preceding paper (Chegini et al., Exp cell res 151 (1984) 466 [5]) on time, temperature dependency and specificity of 125I-hCG internalization, association of internalized hormone with a variety of intracellular organelles, and the highest uptake in Golgi.     

Localization of 125I-atrial natriuretic factor (ANF)-binding sites in rat renal medulla. A light and electron microscope autoradiographic study

Using light and electron microscope autoradiography in vivo, the localization of 125I-(Arg 101-Tyr 126) atrial natriuretic factor (ANF)-binding sites was studied in the renal medulla of rats. At the light microscopic level, the autoradiographic reaction was mainly distributed in patches in the outer medulla, and followed the tubular architecture in the innermost part of the inner medulla. At the electron microscopic level, binding sites were mainly found in the outer medullary descending vasa recta and inner medullary collecting ducts. These results suggest that, in rats, the renal medulla may participate in the natriuresis and diuresis produced by ANF through vascular and tubular effects; the former by changing medullary blood flow at the level of descending vasa recta and the latter by acting on electrolyte and water transport at the level of collecting ducts.     

Scanning electron microscope study of the liver microcirculation

During the experimental investigation performed in dogs and rats, by means of scanning electron microscopy of corrosive anatomical preparations, the spatial organization of all parts of the hepatic vascular bed (arterial, venous and lymphatic) has been studied, specific features of their components construction have been described. Within the limits of one hepatic lobule the number of vessels included in the portal vein system exceeds that of the arterial ones, originating from the proper hepatic artery system. In every part of the vascular bed the gradient of the form, orientation and pronouncement of the nuclei-containing zones in endotheliocytes and myocytes has been established. Various appliances participating in the blood and lymph stream regulation in different parts of the vascular bed have been revealed. As initial elements of the lymph bed, closed digital or loop-like capillaries should be regarded, they localize in the organ's connective tissue framework. Around the portal and hepatic veins and their branches, as well as around the biliary ducts, well developed plexuses of the lymphatic and blood capillaries and vessels localize, they are the main draining pathways of the organ. The degree of development and pronouncement of these plexuses depends on the lumen size in the formation they accompany.     

An electron microscope study of the perfusion-fixed spleen

Summary By preserving the intercellular or plasmatic space, perfusion fixation provides a particularly clear picture of the histological and cytological constitution of the spleen. An analysis of documents obtained with this technique has contributed new information concerning the organization of the intermediate circulation in that organ, and on the topographical relationships and ultrastructure of the various types of cell which are usually grouped under the common denomination of reticulo-endothelial system.Currently available physiological data concerning the flow of blood through the spleen, together with the observed scarcity of sinuses, and of interstices in the latters' walls, to which must be added the narrowness of these interstices, incline us to question the existence of a circulatory system involving the passage of blood from the arterioles into the pulp cords of Billroth, and thence into the sinuses. Thus we are led to conceive of a system whereby about 97% of the blood entering the spleen would flow directly into the sinuses. Phagocytosis of worn blood cells would be carried out by a quantitatively less important side-stream, running parallel to the main stream, but nevertheless sufficiently fast to ensure that every blood cell should be shunted through the spaces of Billroth at least once every 24 hours.The unitary concept of the RES, as it appears from the bulk of existing literature, is based upon the postulated, but never proven, existence of a single cell type capable of developing distinct morphological characteristics, and of carrying out distinct functions, namely phagocytosis and the laying down of reticulin, depending on its situation in the tissue. An ultrastructural study of the various cells encountered in sections of spleen, and a comparison with their counterparts in other organs, seem to rule out this unitarian view.

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Résumé La fixation par perfusion, en conservant l'espace intercellulaire ou plasmatique, donne une image de l'organisation structurale et cytologique de la rate particulièrement claire. L'analyse des documents aínsí obtenus fournit des données nouvelles sur l'organisation de la circulation intermédiaire et sur la position et l'aspect ultrastructural des cellules habituellement réunies sous le nom de système réticulo-endothélial. Les données de physiologie sur le débit splénique, le nombre de sinus observables et le relativement petit nombre et l'étroitesse des fentes sinusiennes font douter de l'existence d'un système circulatoire faisant passer le sang des artérioles dans les cordons de Billroth et de là dans les sinus. Ceci fait envisager un schéma de circulation faisant passer environ 97% du sang directement à travers le sinus. La phagocytose des éléments à détruire est assurée par une circulation parallèle peu importante, mais suffisante pour que chaque élément sanguin ait chaque jour la possibilité de passer par les cordons de Billroth.La théorie du SRE est basée sur l'existence d'une cellule unique, différant seulement par sa position et assurant la macrophagie et la formation de la réticuline. L'étude de ces différents types de cellules au niveau de la rate et leur comparaison au niveau d'autres organes permet d'assurer qu'aucun argument de morphologie ultrastructurale ne peut l'étayer.

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This work was supported by grant No 4237 of the Swiss National Foundation for Scientific Research.

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We wish to thank Mrs. Sidler-Ansermet for her invaluable technical assistance.     

The effect of prolonged dietary administration of the non-carcinogen, 4-acetylaminofluorene on the liver of the rat. An electron microscope study

A diet containing 0.05 % of the non-carcinogen 4-acetylaminofluorene (4-AAF) was fed to male Leeds strain rats for periods of up to 10 months. Some animals were killed after 8–12 weeks, 6 months and 8–10 months of 4-AAF feeding, while further groups were returned to a normal diet after 10 months of treatment and then killed 2, 5, 9 and 12 months later. The hepatic tissues were removed and prepared for electron microscopy. The main fine structural changes induced by 4-AAF were a prominent hypertrophy of the agranular endoplasmic reticulum, glycogen depletion and lipid accumulation. It was noted that these changes persisted following withdrawal of dietary 4-AAF, for the duration of the experiment. The effects of 4-AAF are compared with those of its carcinogenic isomer, 2-acetylaminofluorene (2-AAF) and the possibility is discussed that the clear differences revealed in this study may be directly related to the relative carcinogenicities of these two compounds.     

Intracellular fate of liposome-encapsulated DNA in mouse liver. Analysis using electron microscope autoradiography and subcellular fractionation

Transient expression of liposome-encapsulated DNA in liver after intravenous injection to rats and mice has raised questions concerning the intracellular fate of this DNA. Electron microscope autoradiography shows that at 10 min after injection the highest concentration of liposomal DNA which is taken up by the liver is associated with lysosomes and vesicles. The proportion of DNA associated with the mitochondria steadily increases for 1 h after injection, up to 48% of the exogenous DNA found in the tissue. Part of this DNA follows the subcellular fractionation profile of the mitochondrial matrix marker, malate dehydrogenase. In contrast, 14% of the liposomal DNA taken up by the liver is found in the nuclei at 3 min after injection, and this percentage decreases over a period of 1 h. These results permit us to establish the distribution of liposome-encapsulated DNA among subcellular organelles in liver at different times after injection.     

An electron microscope study of the regenerating nerve fibers

Summary Guinea pig sciatic nerves were severed in order to obtain a regenerative process of the nerve fibers. The animals were killed at different periods of time after the severing (24 hours, 6 days and 12 days) and the specimens obtained were prepared for electronmicroscopic study.The nerve fiber growing extremities (growing cones) were specially studied. The growing cones showed the following components: a) microvesicles; b) mitochondria; c) multivesicular bodies.The microvesicles are hollow elements of about 200 to 700 Å. They constitute the main component of the growing cone. The mitochondria were seen as elongated bodies of 80 m. They were seen in many cases changing to round dense bodies which appear to break-up in irregularly-shaped fragments.The multivesicular bodies were found present in most of the growing cones. Protoneurofibrils do not exist in the growing cone but a close relationship between microvesicles and protoneurofibrils was found in the segments next to the growing cone.The above-mentioned components were found in all growing cones, disregarding the time elapsed after the nerve severing.Director of the Institute.Assistant of the Department of Neurohistology and Experimental Histology.Head of the Department of Cell Ultrastructure.     

An electron microscope study of the yeast Pityrosporum ovale

Summary Cells of Pityrosporum ovale were prepared for electron microscopy by different methods of fixation and embedding, all of them causing some degree of damage to the cells. Apart from the usual organelles seen in other yeast cells, a body was found which showed an electron-dense outer layer and an electron-light centre when stained with permanganate. The cell wall showed layers of different electron-density. Buds were formed at one pole only, leaving a collar on the mother cell.