隐球菌脑膜炎患者治疗后隐球菌超微结构观察

目的研究隐球菌脑膜炎治疗后菌体超微结构的变化,探讨电镜检查在隐球菌活力检测中的应用。方法对8例经过两性霉素B和5-氟胞嘧啶联合治疗8周后,脑脊液中仍然可以查见隐球菌的患者,采用透射电镜对其脑脊液中的隐球菌进行超微结构观察。结果隐球菌菌体结构都显示了明显的变异：菌体大小差异显著,菌体形态变化明显;荚膜结构紊乱,菌体内可见空洞状或多个巨大脂滴,部分菌体胞膜破损,胞浆溢出。结论隐球菌脑膜炎治疗后虽然脑脊液中还存在菌体,但是菌体的超微结构已经发生了重大变化,提示菌体活力降低或死亡。电镜检查可以作为隐球菌活力判定的一种有效手段,提高隐球菌脑膜炎疗效判定的准确性。     

Cerebrospinal fluid-contacting neurons,ciliated perikarya and “peptidergic” synapses in the magnocellular preoptic Nucleus of teleostean fishes

Summary The magnocellular preoptic nucleus of fishes (Anguilla anguilla, Amiurus nebulosus, Cyprinus carpio, Carassius auratus, Ctenopharyngodon idella, Cichlasoma nigrofasciatum) has been studied by light and electron microscopy.Two kinds of neurons were found: a) large, electron-dense, Gomori-positive cells with moderate acetylcholinesterase (AChE) positivity which contain granulated vesicles of 1400 to 2200 Å (in average 1600 to 1800 Å), and b) small, strongly AChE-positive, electron-lucent neurons containing granulated vesicles of 900 to 1200 Å. The nerve cells are supplied with axo-somatic and axo-dendritic synapses. These are formed by axon terminals containing either 1. synaptic vesicles of 500 Å, or 2. synaptic vesicles of 500 Å and dense-core vesicles of 600 to 800 Å, or 3. synaptic vesicles of 600 Å and granulated vesicles of up to 1100 Å, or 4. synaptic vesicles of about 400 Å and granulated vesicles of up to 1800 Å. The presence of peptidergic and numerous other synapses shows the complexity of the organization and afferentation of the magnocellular preoptic nucleus.In the eel, both types of nerve cells form dendritic terminals within the cerebrospinal fluid (CSF). These CSF contacting dendrites are supplied with 9×2+0 cilia. In the other species investigated, only some large neurons build up intraventricular endings. The ependymofugal process of the CSF contacting neurons enters the preoptic-neurohypophysial tract.Perikarya of both the large and the small cells may give rise to single, paired or multiple 9×2+0 cilia extending into the intercellular space. The number of CSF contacting neurons is reciprocal to the number of perikarya with intercellular cilium. These latter cells may represent modified, more differentiated forms of the CSF contacting neurons. We think that atypical cilia protruding into the intercellular space may have the same significance for the intercellular fluid as the cilia of the intraventricular dendrites of the CSF contacting neurons for the CSF.Dedicated to Prof. Dr. W. Bargmann on the occasion of his 70th birthday.     

The functional and structural borders between the CSF-and blood-dominated milieus in the choroid plexuses and the area postrema of the rat

Summary In the borderline area between the hemal milieu of the choroid plexuses (PC) and the interstitial cerebrospinal-fluid (CSF) compartment, ground substances displaying increased amounts of basal lamina-like material and containing negatively charged sulfated glycosaminoglycans appear to be endowed with selective properties. They may function as a sieve or filtration barrier gradually controlling the passage of substances between the two milieus, depending on their charge and molecular weight. Special structural features and functional properties of ependymal cells are associated with such bordering structures. These ependymal cells are transitional elements between choroid epithelium and ciliated ependymal cells. As judged from experiments with horseradish peroxidase and conventional electron microscopy, occluding junctions at the basal pole of these cells prevent a rapid alteration in the milieu conditions, enabling gradual change from hemal to CSF composition near the bases of these transitional ependymal cells. The borderline structures between the hemal milieu of the PC and the area postrema (1) are established by leptomeningeal cells which face a hemal mileu, (2) are endowed with conspicuous tight junctions, and (3) produce a flocculent substance, the light-microscopic equivalent of which is PAS positive. These structures probably establish an effective barrier between the two milieus of different composition. The functional characteristics and the morphology of the meningeal cells facing the hemal milieu of neurohemal regions resemble closely the neurothelial cells, which are interposed between the CSF milieu and the hemal milieu in the dura mater. The present results suggest that the location between the hemal and the CSF milieu is decisive for the transformation of leptomeningeal cells into neurothelial elements.Supported by the Deutsche Forschungsgemeinschaft (Grant Kr 569/5-1)Dedicated to Professor Dr. med., Dr. med. vet. h.c., Dr. phil. h.c. Andreas Oksche on the occasion of his 60th birthday     

Use of electron microscopy to characterize the surfaces of flocculent and nonflocculent yeast cells

The surfaces of flocculent and nonflocculent yeast cells have been examined by electron microscopy. Nonextractive preparative procedures for scanning electron microscopy allow comparison in which sharp or softened images of surface details (scars, etc.) are the criteria for relative abundance of flocculum material. Asexually flocculent budding-yeast cells cannot be distinguished from nonflocculent budding-yeast cells in scanning electron micrographs because the scar details of both are well resolved, being hard and sharp. On the other hand, flocculent fission-yeast cells are readily distinguished from nonflocculent cells because fission scars are mostly soft or obscured on flocculent cells, but sharp on nonflocculent cells. Sexually and asexually flocculent fission-yeast cells cannot be distinguished from one another as both are heavily clad in "mucilaginous" or "hairy" coverings. Examination of lightly extracted and heavily extracted flocculent fission-yeast cells by transmission electron microscopy provides micrographs consistent with the scanning electron micrographs.     

Fine structure and peroxidatic activity of rat blood monocytes

Summary Transmission and scanning electron microscopy of the rat epithalamus shows a regional variation in the distribution of Supraependymal nerves (SN) which correlates well with Supraependymal yellow fluorescence reported by Richards et al. (1974). The medial habenular nucleus, the intercommissural and suprahabenular recesses, the habenular commissure and the fibrae periventriculares thalami have the greatest density of SN/100 m of ependymal surface. The floor of the suprahabenular and intercommissural recesses is covered by non-ciliated ependyma.The significance of these findings is discussed with respect to (1) a direct functional relationship of SN with ependyma, and (2) a possible participation of the non-ciliated ependyma of the suprahabenular and intercommissural recesses in secretory activity whereby the CSF serves as a vehicle for neuroendocrine communication.The author thanks Drs. Sanford Palay, Milton Brightman, and Constantino Sotelo for their advice in the preparation of nervous tissue for electron microscopy; Dr. Gunter Bahr for the use of scanning electron microscopy facilities; and Messrs. Cyril Wingfield and Walter Engler and Mrs. Michie Vane for their technical support     

Cytotoxicity of Fusarium T-2 in cultured Madin-Darby bovine kidney (MDBK) and primary fetal bovine kidney (PFBK) cells

Cytotoxicity of Fusarium T-2 toxin was evaluated in cultured Madin-Darby bovine kidney (MDBK) and primary fetal bovine kidney (PFBK) cells. The criteria for evaluation included number of adherent cells, phase contrast microscopy, and the scanning and transmission electron microscopy. The primary cells were more sensitive to the toxic effects of T-2 toxin than MDBK cultures. Cytotoxicity was observed when the cultures were exposed to the toxin for only 1 hour and then incubated with untreated media. Cell multiplication was decreased in both systems in 72 hour cultures. Scanning electron microscopy indicated loss of inter-cell contact and marked alterations in cell shape. Transmission electron microscopy indicated extensive proliferation of lysosomal bodies and proliferation of endoplasmic reticulum. The membrane system and mitochondria were not affected. Results indicated the kidney cells are highly sensitive to the toxic effects of T-2 toxin.     

Initial attachment ofCandida albicans cells to buccal epithelial cells

The rapid-freezing technique was applied in association with scanning and transmission electron microscopy to observe the initial attachment (or contact) ofCandida albicans cells to exfoliated human buccal epithelial cells. Low temperature scanning electron microscopy provided detailed three-dimensional morphological features of the yeast-epithelial cell association; adhesion ofC. albicans cells to host cells was primarily owing to an interaction between fibrillar layer of the yeast cell wall and the membrane interdigitations of the epithelial cells. Such a particular interconnection between the two cells was confirmed by the freeze-substitution fixation for transmission electron microscopy. These results clearly demonstrate the outermost fibrillar cell wall layer ofC. albicans responsible for adhesion to host cells.     

A glass bead treatment facilitating the fixation and infiltration of yeast and other refractory cells for electron microscopy

Summary Physical removal of the cell wall of yeast and other fungal cells, by rapid mixing of the cells with glass beads after preliminary fixation in glutaraldehyde or formalin, removes the cell wall barrier to fixation and/or infiltration of the cells for electron microscopy. The technique has been used on a variety of fungal cells which have been difficult to fix for electron microscopy, and appears to have wide applicability.     

The JCB DataViewer scales up

One of the major forces driving the birth of the field of cell biology was the application of electron microscopy to cells. Today, virtual nanoscopy has brought electron microscopy and the cell biology community to a new frontier in biological imaging and cell biological inquiry. The Journal of Cell Biology is pleased to announce that the JCB DataViewer is "going big" to host electron microscopy data at a whole new scale.     

Microscopic Particles in Two Fractions of Fresh Cerebrospinal Fluid in Twins with Schizophrenia or Bipolar Disorder and in Healthy Controls

Background

Using scanning electron microscopy, microscopic structures have been identified in fresh cerebrospinal fluid (CSF) in patients with schizophrenia and bipolar disorder, but only rarely in control subjects. However, it has not been determined whether these microscopic particles represent state or trait markers, i.e. if their presence is related to clinical manifestations of the disease or if they also can be found in as yet asymptomatic individuals with a genetic liability. This question can be addressed by studying twins discordant or concordant for schizophrenia or bipolar disorder.

Methodology/Principal Findings

We investigated microscopic structures in CSF in 102 individuals: 21 monozygotic and 16 dizygotic twins affected or not affected with schizophrenia, schizoaffective disorder or bipolar disorder and in 65 healthy singleton controls. A first and a second fraction of CSF was freshly applied on filters and examined by scanning electron microscopy technique. Spherical particles with lipid appearance averaging between 0.1 to 8.0 µm in diameter were detected in the center of the filter as well as located in the margins of larger aggregates binding in a viscous state. Structures were found in 12 of 17 probands, 5 of 12 healthy co-twins and 3 of 73 healthy controls. Thus, a positive microscopic finding significantly increased the likelihood of belonging to the proband group (OR = 48, 95% CL: 8.2–550, p<0.0001) and the co-twin-group (OR = 16, 95% CL: 2.0–218, p = 0.006). Age, sex, history of alcohol abuse or anxiety syndrome, somatic disorder and markers of acute inflammatory activity did not account for group differences; nor did exposure to psychotropic medication.

Conclusion

Presence of microscopic particles in CSF may possibly reflect trait dependent genetic or environmental vulnerability in patients with schizophrenia, schizoaffective disorder or bipolar disorder.     

Cerebrospinal fluid-contacting neurons of the central canal and terminal ventricle in various vertebrates

Cell and Tissue Research - Cerebrospinal fluid (CSF)-contacting neurons were studied by means of electron microscopy in the spinal cord and/or terminal ventricle of the ray, Raja clavata...     

Fine structure of ependymal cysts in and around the area postrema of the rat

Summary Peculiar cells forming cysts were observed in the area postrema and sometimes also in the choroid plexus and the tela chorioidea near the area postrema, and were studied in detail by electron microscopy. The cytological features of the cyst cell and its junctional relationship to neighboring cells imply that cyst cells are derived from ependymal and choroid epithelial cells. The cyst cells usually contact directly the perivascular spaces of postremal, choroidal or pial capillaries, where the cytoplasm is often considerably attenuated. The cystic lumen is commonly filled with a flocculent material. The limiting membrane of the cystic lumen, which frequently bears cilia and microvilli, has the same thickness as the surface cell membrane. In many cases, the cyst is surrounded by the cytoplasm of a single cell. In some cases, however, two cells participate in the formation of the cyst, although one is only a slender process and joined by a zonula occludens with the main cyst cell. Horseradish peroxidase (HRP) injected into the cerebrospinal fluid (CSF) space failed to enter the cystic lumen. A possible significance of the cyst in relation to the CSF and blood circulation was considered.     

Growth of choroid plexus epithelium vesicles in vitro depends on secretory activity

Although a number of models have been used to study choroid plexus epithelium (CPe) function, analysis in physiological conditions of this polarised epithelium which produces the majority of the cerebrospinal fluid (CSF) and is one of the key barriers between blood and CSF in the brain remains challenging. As CPe cells form polarised CPe vesicles when cultured in Matrigel, we have assessed their behaviour and potential use for pharmacological studies. Like CPe cells in vivo, CPe vesicles express transthyretin, E2f5, Fox-j1 and p73, and contain tight junctions, as indicated by ZO-1 expression and electron microscopy analysis. Time-lapse microscopy shows that CPe cells plated in Matrigel are highly migratory and rapidly form homotypic cell aggregates, which then reorganise to form vesicles whose size increases linearly overtime. Neither aggregate nor vesicle size is affected by AraC treatment, though this inhibitor significantly reduces proliferation in CPe monolayers. Increase in size of vesicles, which have reached a growth plateau is observed following addition of fluorescently-labelled CPe cells, which become incorporated into the vesicle walls. Significantly, treatment with secretion inhibitors blocks vesicle formation and their expansion. These results show that secretion, rather than cell division, controls vesicle growth, consistent with low levels of proliferation and thinning of the CPe observed both in growing vesicles and during CPe development. Therefore, changes in vesicle size can be used to evaluate the effect of putative molecules involved in the regulation of secretion.     

Comparison of in vitro and in vivo modulation of myelopoiesis by biological response modifiers

Summary In vitro growth and differentiation of granulocyte-macrophage progenitor cells (GM-CFU-C) requires colony-stimulating factors (CSF), and an in vivo role for CSF has also been proposed. Prostaglandins of the E series (PGE) have been reported to serve as negative feedback regulators of myelopoiesis. Here, we report evidence of augmented CSF secretion by mouse peritoneal Mo (macrophages) and bone marrow cells in vitro upon stimulation with various biological response modifiers (BRMs). Optimal induction of CSF secretion occurred after in vitro treatment of peritoneal Mo and mononuclear bone marrow cells with 50 g/ml poly ICLC (polyriboinosinic-polycytidylic acid poly-L-lysine), 5 g/ml lipopolysaccharide (LPS), or 500 U/ml interferon (IFN_,) for 2 days. The in vitro stimulation of CSF secretion was paralleled by an increase in PGE secretion by Mo and bone marrow cells. The PGE secretion could, however, be selectively blocked by preincubating the cells for 3 h with indomethacin (10^–7 Mol) leaving CFS production intact. In vivo treatment of mice with either maleic anhydride divinyl ether copolymer (MVE-2; 25 mg/kg) or poly ICLC (2 mg/kg) significantly increased levels of CSF in serum, as well as in culture supernatants of in vivo-treated peritoneal Mo and bone marrow cells. The increase in serum CSF levels and in secretion of CSF by peritoneal Mo and bone marrow cells was followed by a dose-dependent increase in GM-CFU-C, in nucleated bone marrow cells, and in peripheral blood leukocytes. The same BRMs also stimulated the secretion of PGE by in vivo-activated peritoneal Mo, but not by bone marrow cells. Pretreatment of the mice with indomethacin (4 mg/kg) almost completely suppressed PGE secretion by peritoneal Mo, but did not change the CSF secretion by peritoneal Mo or bone marrow cells and had no significant effect on bone marrow cellularity. Therefore, MVE-2 and poly ICLC, in addition to their immunomodulatory activity, can also have stimulatory effects on myelopoiesis, presumably mediated through secretion of CSFs. Protection and/or restoration of bone marrow function could thus either provide the opportunity for more extensive chemotherapy or could increase the number of Mo effector cells available for activation against tumor targets.     

Localization of α-galactomannan on the surface of Schizosaccharomyces pombe cells by scanning electron microscopy

Galactomannan was localized by scanning and transmission electron microscopy on the cells and cell walls of Schizosaccharomyces pombe. The markers were prepared from colloidal gold granules labelled with an -galactopyranosyl-binding lectin isolated from the seeds of Bandeiraea simplicifolia. Part or all of this -galactomannan was present in the outer layer of the cell wall and was uniformly distributed even on the fission scars.Non-Standard Abbreviations Au lectin-labelled colloid - SEM scanning electron microscopy - TEM transmission electron microscopy     

Nascent Astrocyte Particles Differ from Lipoproteins in CSF

Abstract: Little is known about lipid transport and metabolism in the brain. As a further step toward understanding the origin and function of CNS lipoproteins, we have characterized by size and density fractionation lipoprotein particles from human CSF and primary cultures of rat astrocytes. The fractions were analyzed for esterified and free cholesterol, triglyceride, phospholipid, albumin, and apolipoproteins (apo) E, AI, AII, and J. As determined by lipid and apolipoprotein profiles, gel electrophoresis, and electron microscopy, nascent astrocyte particles contain little core lipid, are primarily discoidal in shape, and contain apoE and apoJ. In contrast, CSF lipoproteins are the size and density of plasma high-density lipoprotein, contain the core lipid, esterified cholesterol, and are spherical. CSF lipoproteins were heterogeneous in apolipoprotein content with apoE, the most abundant apolipoprotein, localized to the largest particles, apoAI and apoAII localized to progressively smaller particles, and apoJ distributed relatively evenly across particle size. There was substantial loss of protein from both CSF and astrocyte particles after density centrifugation compared with gel-filtration chromatography. The differences between lipoproteins secreted by astrocytes and present in CSF suggest that in addition to delivery of their constituents to cells, lipoprotein particles secreted within the brain by astrocytes may have the potential to participate in cholesterol clearance, developing a core of esterified cholesterol before reaching the CSF. Study of the functional properties of both astrocyte-secreted and CSF lipoproteins isolated by techniques that preserve native particle structure may also provide insight into the function of apoE in the pathophysiology of specific neurological diseases such as Alzheimer's disease.     

THE ULTRASTRUCTURE AND HISTOPHYSIOLOGY OF HUMAN ECCRINE SWEAT GLANDS

The electron microscopy of human eccrine sweat glands has been studied before and after stimulation by pilocarpine iontophoresis. The identity of the dark and clear cells in the secretory segment as defined by Montagna et al. (23) was determined by studying serial sections, thin for electron microscopy and thick for light microscopy. Cells with numerous apical secretory vacuoles are termed mucoid (dark) cells, since these vacuoles stain positively for acid mucopolysaccharide. Clear cells are intimately associated with intercellular canaliculi. The "cuticular border" of surface cells of the duct is a condensation of tonofilaments and granules. Numerous mitochondria are concentrated in basal cells of the duct. The presence of mucoid cells in the secretory segment may bear on the interpretation of the pathologic findings in the disease cystic fibrosis of the pancreas, and suggests that this disease may be due to a basic disorder of mucopolysaccharide production. The possible roles of the various cellular components in the elaboration of sweat are discussed.     

Fine structure of the ependyma and intercellular junctions in the area postrema of the rat

Summary Ependymal cells and their junctional complexes in the area postrema of the rat were studied in detail by tracer experiments using horseradish peroxidase (HRP) and colloidal lanthanum and by freeze-etch techniques, in addition to routine electron microscopy. The ependyma of the area postrema is characterized as flattened cells possessing very few cilia, a moderate amount of microvilli, a well-developed Golgi apparatus and rough endoplasmic reticulum. Numerous vesicles or tubular formations with internal dense content were found to accumulate in the basal processes of ependymal cells; the basal process makes contact with the perivascular basal lamina. It is suggested that the dense material in the tubulovesicular formations is synthesized within the ependymal cell and discharged into the perivascular space. The apical junctions between adjacent ependymal cells display very close apposition, with a gap of 2–3 nm, but no fusion of adjacent plasma membranes; they thus represent a transitional form between the zonulae adhaerentes present in the ordinary mural ependyma and the zonulae occludentes in the choroidal epithelium. A direct intercommunication between the ventricular cerebrospinal fluid (CSF) and the blood vascular system indicates that a region exists lacking a blood-ventricular CSF barrier.     

Certain aspects of the use of new method of microscopy in oncology.

Electron microscopic studies on human neoplasms demonstrated that the typical cells fo individual neoplasms retain the ability of showing their specific ultrastructural differentiation. This fact provides theoretical basis for the use of electron microscopy in oncological practice for purposes of differential diagnosis. It also allows rejection of the concept of "dedifferentiation" and ultrastructural "simplification" as main ways of formation of neoplastic cells.