An electron microscopical study of developing sympathetic neurons in man

Summary An electron microscopic study has been made of the sympathetic ganglia of a 15 and a 17 week old male human fetus. The fetal sympathetic neurons were densely packed in a scanty connective tissue matrix which also contained blood vessels. The fetal sympathetic neurons had a large, electron-light nucleus with one or two nucleoli, and was of a somewhat mottled appearance due to irregularly dispersed aggregates of fine and coarse granules. The perikaryon usually formed a thin envelope around the nucleus and contained, except for large pigment granules, all intracytoplasmic structures which were also found in mature sympathetic neurons. Adjacent sympathetic cells were either in immediate contact, or slightly separated by a wedge of electron-light satellite expansions, or lined by primitive axons. The satellite cells were in the early state of development. Electron-dense axons either stood side by side with, or were slightly engulfed by light Schwann cell expansions and formed distinct bundles surrounded by a common basement membrane. There was practically no trace of myelin formation or Schwann cell wrapping characteristic for unmyelinated fibers as seen in the adult.This investigation was supported (in whole) by United States Public Health Service Grant NB-01879-05, Institute for Nervous Diseases and Blindness.Grateful acknowledgment is made to Professor Dr. John Lind who madea vailable the fetal material through the Laboratory of Prenatal Growth and Development, Karolinska Institutet, Stockholm, Sweden.The authors wish to thank Docent Dr. Gunnar Bloom who provided the facilities necessary to prepare the fetal material for electron microscopical examination, in his laboratory for Cell Research, Karolinska Institutet, Stockholm, Sweden.     

An electron microscopical study of the ventral nerve cord of the leech

Summary Three types of fibrillar structure can be seen with the electron microscope in nerve cells of the vental nerve cord of the leech: the neurofibrillar bundles, the tubules and the tonofibrils. In neuroglial cells only the tonofibrils are present. The three types are structurally distinct, and, contrary to past suggestions, there is no evidence that neurofibrillar bundles may consist of tightly packed or badly fixed tubules.In vertebrates the electron microscope reveals bundles of discrete neurofilaments that form the basis for the argyrophilic neurofibrillae seen by light microscopy. Each neurofilamentous unit appears as a dot in cross section. In contrast, in the leech, the electron microscope shows compact fibrillar bundles that clearly correspond to the neurofibrils described by light microscopists. These bundles are made up of closely packed units rather than discrete filaments and where the units occur singly they are seen to have an angular or stellate outline in cross section. To make this distinction clear these have been termed neurofibrillar bundles rather than neurofilaments.Attachment plaques occur in both neurons and neuroglia. These plaques have tonofibrils attached, and the glial tonofibrils are far more numerous than the neuronal tonofibrils. The glial fibrils are identical with the tonofibrils in the glial cells.The attachment plaques are invariably related to an extracellular space that contains material identical with the basement membrane. This material is continuous, by a complex system of channels and diverticulae, with the outer basement membrane in the neuron packets, but forms isolated patches in the other parts of the nervous system.We are grateful to Prof. J. Z. Young, F. R. S., for his encouragement to Mrs. Astafiev for the drawings, to Miss B. Shirra and Mr. K. Watkins for technical assistance and to Mr. S. Waterman for photography.     

An electron microscopical study of the genus Tortula Hedw., with special reference to exine ornamentation

Abstract

Spores of ten North European species of the genus Tortula Hedw. were studied in the transmission electron microscope. In all the sporoderm was more or less covered with finely papillate processes of several different types which divide the genus into a number of groups different from the previously suggested sections. The ornamentation of leaves, peristomes, and spores of T. norvegica (Web. f.) Wahlenb. has been studied in the scanning electron microscope. The leaf papillae are not c-shaped as suggested in the literature, but branched in a rather complex way. The borders of the basal membrane cells of the peristome appeared to be a continuation of the filamentous portion of the teeth. A comparison with T. ruralis (Hedw.) Gaertn., Meyer & Scherb. revealed the ornamentation to be of the same basic type in the two species.     

The presence of gap junctions during early Patella embryogenesis: An electron microscopical study

The presence of gap junctions has been examined up to the sixth cleavage in the early Patella embryo. Gap junctions are located all over the blastomere borders. In 2-, 4-, and 8-cell embryos they were also observed at peripheral contacts. The frequency and size of the gap junctions increase at the 32-cell stage. The structure of gap junctions is similar in all stages investigated with hexagonally arranged equal-sized particles (11 nm) having a constant center-to-center spacing (13.0 nm). At the 32-cell stage formation plaques were observed, indicating an increase of gap junctions.     

High-resolution electron microscopical study of cyst walls of Entamoeba spp

Knowledge of the fine structural organization, molecular composition and permeability properties of the cell surface of intestinal protozoan cysts is important to understand the biologic basis of their resistance. Recent studies on the biology of the cyst walls of Entamoeba histolytica and Entamoeba invadens have considerably advanced knowledge on the cellular processes involved in the transport and surface deposition of the main cyst wall components. Using transmission electron microscopy, cytochemistry, scanning electron microscopy and freeze-fracture techniques, we have obtained new information. In mature cysts the permeability of Entamoeba cysts is limited to small molecules not by the cyst wall, but by the plasma membrane, as demonstrated with the use of ruthenium red as an electron-dense tracer. Cell walls of E. histolytica cysts are made up of five to seven layers of unordered fibrils 7-8 nm thick. Alcian blue stains a regular mesh of fibrils approximately 4 nm thick, running perpendicularly to the cyst wall. In addition, abundant ionogenic groups are seen in cyst walls treated with cationized ferritin. In the mature cysts of E. histolytica and E. invadens small cytoplasmic vesicles with granular material were in close contact with the plasma membrane, suggesting a process of fusion and deposition of granular material to the cell wall. The plasma membrane of mature cysts is devoid of intramembrane particles when analyzed with the freeze-fracture technique. When viewed with scanning electron microscopy the surface of E. histolytica cysts clearly differs from that of Entamoeba coli and E. invadens.     

An electron microscopical study of the salivary glands of the tettigoniid, Homorochoryphus nitidulus

The fine structure of the salivary glands of the tettigoniid, Homorocoryphus nitidulus vicinus, has been studied by electron microscopy. Three main types of cell are present; the parietal cells, the zymogenic cells and the extracellular duct cells. Of these, the zymogenic cells are almost certainly the major secretory cells of the gland whereas the other two cell types exhibit features indicative of transporting epithelia, suggesting that they may be responsible for controlling the ion and water content of the saliva. This rôle in ion and water transport is further supported by the light histochemical demonstration of a ouabain-sensitive sodium-dependent ATPase in both the parietal cells and the cells of the extracellular ducts.     

A light and electron microscopical study of spermatogenesis in Hydra cauliculata

Morphological changes in the interstitial cells were studied during their differentiation into spermatozoa. Development of the spermatogonium involves an increase in nuclear and nucleolar size, and the formation of a dense mass of cytoplasmic ribosomes. The mature spermatozoon has a relatively simple structure. The head consists of a bullet shaped, homogeneous nucleus, which lacks an acrosome but bears distal membrane specializations. The middle piece is composed of four large spherical mitochondria at the base of nucleus. A single flagellum projects from one of the two centrioles lodged between the mitochondria. The flagellum appears early during development in the primary spermatocyte. During spermiogenesis microtubules associated with the basal body flagellum complex appear to define the axis of chromatin condensation.     

Histochemical and electron microscopical studies on the epithelium of the fetal colon with special reference to the occurrence of lipids

Summary Absorbing cells of the colon of 28 human fetuses were studied histochemically while 4 were studied ultrastructurally. Cellular ultrastructure included: microvilli with a fuzz, typically lateral specializations, small mitochondria placed at the peripheral part of the cells, apically placed lysosomes, basally placed lipid droplets and disperse accumulations of glycogen. Only a slight pinocytosis was observed and the endoplasmic reticulum and Golgi apparatus were only poorly developed. Comparing the enzymatic findings with the ultrastructural findings, it is suggested that some absorption may take place in the fetal large intestine. It is further considered whether an intracellular synthesis of lipids may occur.This study has been supported by a grant from the Association of the Aid of the Crippled Children, New York.