Three-dimensional structure of endothelial cells in hepatic sinusoids of the rat as revealed by the Golgi method

Summary The three-dimensional structure of endothelial cells in the hepatic sinusoids of the rat was studied by application of light- and electron microscopy on Golgi-impregnated specimens. A number of endothelial cells could thus be individually delineated throughout the hepatic lobules. The cytoplasm, showing heavy silver deposits, consists of two distinct areas, a thick and thin portion. The thick portion, issuing from the region of the perikaryon, branches and tapers toward the cell periphery. The thin portion, occupying the remainder of the cytoplasm, consists largely of highly fenestrated sieve plates. Some intralobular variation can be noted; the thick portion of the endothelial cells is well developed in the periportal zone, while the cells in the centrilobular zone are relatively rich in thin portions. In addition, the area of distribution of an individual endothelial cell is larger in the centrilobular sinusoids than in the periportal zone. Some endothelial cells also possess unique cytoplasmic processes projecting into the intercellular space between hepatocytes and connecting the sinusoidal walls of neighboring sinusoids. These processes may anchor the endothelial cells to the hepatic plates.     

Ultrastructure of human dermal blood vessels with special reference to the endothelial filaments.

The ultrastructure of endothelial cytoplasmic filaments of small blood vessels from the human dermis has been described. The material consisted of biopsies from normal abdominal and thoracic skin and also from the skin of patients with urticaria pigmentosa. Most vessels were surrounded by multiple layers of basal lamina and corresponded to the small venules of the subpapillary dermis. The wall of many vessels was composed by endothelial cells with clear cytoplasm which was rich in filaments and by endothelial cells with a dense cytoplasm which was poor in filaments. Some vessels had walls composed of clear endothelial cells only. The filaments varied in diameter between 80-120 A. Curling, recoiling and whorling of cytoplasmic filaments were obvious in endothelial cells of contracted vessels. Bulging of endothelial nuclei and nuclear indentations were seen in the skin lesion of urticaria pigmentosa. The possibility that the clear endothelial cells which are rich in filaments may be more actively involved in contraction than the dense cells, is discussed.     

Ultrastructural changes in the histohematic barrier of the liver in the early period after endotoxin administration

Investigation of the changes of the mouse liver cells revealed early reaction of endothelial sinusoid cells and Kupffer cells after endotoxin application. During first 60 min. after endotoxin injection there were certain bulge of nuclear zone, changes of nuclear shape, appearance of microfilaments in the cytoplasm of endothelial cells. An increase in the number of the pores and fenestrae grouped in sieve plates was discovered in the endothelial cells. Their luminal surface formed the bubbles. Such changes of the endothelial cells can be described as their activation. Reaction of the endothelial cells of hepatic sinusoids and activation of the Kupffer cells were revealed at the same time.     

Localization of caveolin-3 in the sinus endothelial cells of the rat spleen

The localization of caveolins in the sinus endothelial cells of the rat spleen has been demonstrated by confocal laser scanning and electron microscopy. Caveolin-3, a muscle-specific caveolin, was detected by Western blot analysis and immunofluorescence microscopy of isolated sinus endothelial cells and tissue cryosections of the spleen. During the immunofluorescence microscopy of isolated endothelial cells, both caveolin-3 and caveolin-1 were found. In tissue cryosections of the spleen, caveolin-3, as well as caveolin-1 and -2, was present in the contours and cytoplasm of the cells. Immunogold electron microscopy of tissue cryosections revealed caveolin-3, -1, and -2 to be present in caveolae in the apical, lateral, and basal plasma membranes and some vesicular profiles in the cytoplasm of sinus endothelial cells. Furthermore, caveolin-3 was colocalized with caveolin-1 in the same caveolae in the apical, lateral, and basal plasma membranes. Stress fibers and tubulovesicular structures were situated in the vicinity of caveolae labeled with anti-caveolin-3, anti-caveolin-1, and anti-caveolin-2 antibodies. It is speculated that caveolae in sinus endothelial cells play an important role in the constriction of stress fibers.     

Electron-microscopic cytochemistry of alkaline-phosphatase activity in endothelium, pericytes and oligodendrocytes in the rat brain

The fine structural localization of alkaline-phosphatase (ALP) activity was investigated in the endothelial cells and pericytes of blood vessels and in the oligodendrocytes of rat cerebral cortex and corpus callosum by means of electron-microscopic (EM) cytochemistry using the lead-citrate method. ALP activity was associated with both the luminal and abluminal plasma membranes of some endothelial cells, but in other endothelial cells, this activity was found inside the cytoplasm. In some pericytes, ALP activity was associated with the plasma membrane but in others, strong activity was exhibited within both the cytoplasm and nucleus. Light, medium and dark oligodendrocytes showed ALP activity on their plasma membranes; on the other hand, immature oligodendrocytes exhibited activity within the cytoplasm and on the part of their plasma membrane. Within the cytoplasm of these reacted immature cells, the rough endoplasmic reticulum, nuclear membrane and outer membrane of the mitochondria were the main sites of ALP reaction. Endothelial cells, pericytes and oligodendrocytes demonstrated ALP activity along their plasma membrane or within their cytoplasm, and pericytes showed it within their nuclei. In particular, oligodendrocytes retained ALP activity throughout their cell life, and the intracellular distribution of this activity altered as they matured.     

Endothelial intracellular vacuoles in angiosarcoma of the scalp

Ultrastructural observations of an angiosarcoma of the scalp revealed intracellular vacuoles both in undifferentiated and in angiomatous areas of the tumor. These structures resembled closely the 'intracytoplasmic vacuoles' described by Furusato et al. (1984); they did not appear to result from tangential sectioning through the tips of capillary loops since single endothelial cells often contained more than one intracellular vacuole. The vacuoles were separated from the cytoplasm by a membrane that was complete in some and interrupted in others. Ultrastructural examination of serial sections of endothelial cells revealed occasional tears in the septum between two adjacent intracellular vacuoles. It is suggested that a number of membrane-bound vacuoles may develop in the cytoplasm of autolytic endothelial cells and that subsequent fusion results in the production of a single intracellular vacuole.     

云南树鼩肝脏结构的光,电镜观察

本文报告了树肺脏的一般结构和超微结构。与人和灵长目相似，其肺实质也是由导气部和呼吸部构成。但不同的是其细支气管粘膜形成很高的皱襞。在电镜下Ｃｌａｒａ细胞电子密度高，顶部胞质中含有大量膜包颗粒，这些结构与大白鼠和家兔的结构相似。许多毛细血管外方都包绕着基膜和肺泡Ⅰ型上皮细胞的胞质。气血屏障由肺泡上皮细胞、融合的基膜和内皮细胞胞质构成。说明树肺脏不但是呼吸器官，也是一些激素和介质产生及代谢的重要器官。本文为研究树的正常生理功能及分类提供形态学资料。     

Expression and distribution of heat shock proteins in the heart of transported pigs

The expression and localization of four heat shock proteins (Hsp70, Hsp86, Hsp90, and Hsp27) were shown in the heart tissue of pigs transported for 6 h. Immunostaining detected the consistent presence of all Hsps in the pig myocardial cells under both transported and normal housing conditions. Immunohistochemical analysis revealed predominance of Hsp70 (significantly highest levels) and Hsp27 in the cytoplasm of myocardial cells. Hsp90 and Hsp86 were expressed both in the cytoplasm and in the nucleus, preferentially in the cytoplasm, of the myocardial cells. In view of their abundant and uniform distributions in the myocardial cells, the expression and distribution patterns of all detected Hsps within the myocardial cells, mostly limited to the cytoplasm, could be related to their chaperone function for cells with important special activities in this study. The identification of all four Hsps in the blood vessel endothelial cells possibly implies that endothelial cells react to ischemia and hypoxia by expressing Hsps. Immunoblot findings suggest that the level of all Hsps decreased in response to stress due to a 6 h journey. The decrease in Hsp levels in the myocardial cells may indicate that the transport stress may have overcharged the repair mechanisms of the cells. Whether this distinct depletion of Hsps contributes to an increased susceptibility to acute heart failure and the sudden death syndrome in transported pigs should be elucidated in future experiments.     

Ultrastructure of cellular features permitting the regulation of human cerebral cortex microcirculation]

Microglia-like cells and endothelial cells may influence capillary blood output. 1) Microglia-like cells are sometimes interposed between two endothelial processes with which they are nexus-linked. In this position, they protude in vascular lumen which is considerably reduced. 2) Endothelial cells present no contractile filaments but their nucleus and surrounding cytoplasm may protude in vascular lumen, constituting a "coussinet-like" structure. Thus, regulation by specialized structures observed by Legait in brain arteries seems to occur even in the smallest ramifications of brain cortical vessels.     

The structure of the centriolar apparatus of the endothelial cells in the embryonic and definitive human aorta

The fine structure of the centriolar system was studied on serial sections of 90 endothelial cells of human aorta (50 to 60 years) in regions without atherosclerotic platelets and with fibrous and atheromatous platelets and of 30 endothelial cells of human embryonic aorta (22-24 weeks). The vast majority (95%) of endothelial cells of the atheromatous platelets were shown to have a primary cilium over 1 micron long which gives on the basal surface in all the cells. In the regions without platelets and with fibrous platelets a cilium was observed in about 20% of cells and it gives in the vessel lumen. Endothelial cells with a cilium fully embedded in the cytoplasm and with abnormal cilium structure were found in the embryonic aorta. A suggestion is put forward that cilia of the endothelial cells of embryonic aorta and those of adult aorta differ by the mechanism of their formation and can have different functions.     

Systematic analysis of hematopoietic, vasculogenetic, and angiogenetic phases in the developing embryonic avian lung, Gallus gallus variant domesticus

In the embryonic lung of the domestic fowl, Gallus gallus variant domesticus, hematogenetic and vasculogenetic cells become ultrastructurally clear from day 4 of development. In the former group of cells, filopodial extensions coalesce, cytoplasm thickens, and accumulating hemoglobin displaces the nucleus peripherally while in the latter, conspicuous filopodial extensions and large nuclei develop as the cells assume a rather stellate appearance. From day 5, erythrocytes and granular leukocytes begin forming from cytoarchitecturally cognate hematogenetic cells. The cells become distinguishable when hemoglobin starts to accumulate in the erythroblasts and electron dense bodies form in the leukoblasts. Vasculogenesis begins from day 7 in different areas of the developing lung: erthrocytes (but not granular leukocytes) appear to attract committed vasculogenetic cells (angioblasts) that form an endothelial lining and vessel wall. Arrangement of angioblasts around forming blood vessels sets the direction along which the vessels sprout (angiogenesis). In some areas of the developing lung, through what seems like an inductive erythropoietic process, arcades of erythrocytes organize. Once endothelial cells surround such continuities, discrete vascular units organize. By day 10, the major parts of the in-built (intrinsic) pulmonary vasculature are assembled. Complete pulmonary circulation (i.e., through the exchange tissue) is not established until after day 18 when the blood capillaries start to develop. Since the precursory erythrocytes do not have a respiratory role, it is imperative that de novo erythropoiesis is essential for vasculogenesis. Diffuse (fragmentary) development and subsequent piecemeal assembly of the pulmonary vascular system may explicate the fabrication of a complex circulatory architecture that grants cross-current, counter-current, and multicapillary serial arterialization designs in the exchange tissue of the avian lung. The exceptional respiratory efficiency of the avian lung is largely attributable to the geometries (physical interfacing) between the bronchial and vascular elements at different levels of morphological organization.     

Simultaneous measurement of endothelial cell damage,elastase release and chemiluminescence response during interaction between polymorphonuclear leukocytes and endothelial cells

Using cultured human umbilical cord vein endothelial cells and human blood neutrophils, the interaction between neutrophils and endothelial cells, in vitro, was studied. The aim of the study was to examine whether a respiratory burst stimulation by neutrophils would be observed by neutrophil/endothelial cell interaction and whether the respiratory burst stimulation of neutrophils by endothelial cells could be enhanced by lipopolysaccharide stimulation of neutrophils. The second aim was whether such an effect, or secretion of elastase, could cause an endothelial cell damage in vitro. Chemiluminescence as an indicator of oxygen-derived metabolites produced by neutrophils, elastase release by neutrophils, and endothelial cell damage, based on¹¹¹ In-oxine release from labelled endothelial cells, were measured simultaneously. The present investigation demonstrates that neutrophils can be directly stimulated by endothelial cells. A further amplification of this process following lipopolysaccharide priming up to 10 ng/ml blood could be demonstrated. A slight endothelial cell damage occurs following neutrophil stimulation, although elastase secretion does not increase during interaction between neutrophils and endothelial cells. These results raise the possibility that oxygen-derived metabolites rather than elastase contribute to an endothelial cell damage which might occur in conditions such as endotoxin-induced adult respiratory distress syndrome.     

Immunohistologic identification of factor VIII related antigen in frozen sections of rat lung

Factor VIII related antigen (F VIII RAg) is localized in the cytoplasm of vascular endothelial cells. In this study, endothelial cells in frozen lung sections of Fischer-344 rat lungs were surveyed for F VIII RAg using a commercially available primary antibody against human F VIII RAg and an immunofluorescence assay. Rat pulmonary endothelial cells were positively labeled for F VIII RAg, whereas other lung cell types were not. Immunohistologic staining of F VIII RAg is useful in the rat model for identifying pulmonary endothelial cells in lung sections, and may be of use for detecting changes in lung endothelial cells due to environmental insults.     

Adaptations to the air breathing in the posterior intestine of the catfish (Corydoras aeneus,Callichthyidae). A histological and ultrastructural study

A light and transmission electron microscopic study of the intestine of catfish C. aeneus shows that the anterior part of the intestine is a site of digestion and absorption and its structure is typical of that of other teleostean fishes. However, in this species the thin-walled posterior intestine is adapted to air breathing. In this region mucosa is smooth and lined with respiratory epithelium with capillary network. Several types of cells are observed in the epithelium: flattened respiratory epithelial cells with short microvili, goblet cells, scarce epithelial cells with numerous longer microvilli, and two types of endocrine cells (EC). The solitary brush cells with several long and thick microvilli described here are the first observation of such cells in the gastrointestinal tract of fishes. Bodies of respiratory epithelial cells lie between capillaries. Their cytoplasm, apart from typical organelles contains dense and lamellar bodies, which are a site of accumulation of surfactant. In regions where capillaries are covered by thin cytoplasmic sheets of respiratory epithelial cells, a thin (0.24-3.00 microm) air-blood barrier is formed, thus enabling gas exchange. Epithelial cells with longer microvilli do not participate in the formation of the air-blood barrier and are probably responsible for absorbtion. EC of the closed type are dispersed within the epithelium. Their cytoplasm contains characteristic round or oval dense core vesicles 69 to 230 nm in diameter. The role of EC and brush cells in the regulation of processes related to absorbtion, and to respiration, is disscused.     

神经皮肤黑变病中黑色素的来源初探

目的探讨食蟹猴神经皮肤黑变病（NCM）中黑色素的来源。方法收集北京协和医学院比较医学中心病理室食蟹猴神经皮肤黑变病的病理学标本一例,复习其病理切片并辅助免疫组化及电镜技术对黑色素的来源做进一步探讨。结果皮肤病理检查显示真皮内黑色素主要由黑色素细胞产生,黑色素细胞CD31免疫组化染色阴性。脑膜的组织病理学显示脑膜下黑色素主要由黑色素细胞产生,黑色素细胞CD31免疫组化染色阴性。脑实质的组织病理学显示其黑色素由黑色素细胞和血管内皮细胞产生,CD31免疫组化染色显示含有黑色素的血管内皮细胞呈阳性着色。电镜检查结果同样显示血管内皮细胞内可见黑色素小体沉积。结论我们在世界上首次揭示了食蟹猴NCM大脑中血管内皮细胞可产生黑色素,这给内皮细胞增加了一项新的功能。     

Relationship between mitochondria and the development of specific lipid droplets in capillary endothelial cells of the respiratory tract in patients with sarcoidosis

The aim of this study was to morphologically evaluate damage in the capillary endothelial cells of the respiratory tract in patients with sarcoidosis. We examined tissues of the bronchus and lung obtained from 16 patients with sarcoidosis consisting of 2 stage 0, 10 stage I and 4 stage II patients, and 11 controls. The morphology of capillary endothelial cells was studied using electron microscopy. In the samples from patients with sarcoidosis, lipid droplets exhibiting dark monophasic density (unsaturated fatty acids) were surrounded by abundant lysosomes in the capillary endothelial cells, and the double-membrane structure of the mitochondria attached to these lipid droplets was lost in three cases. Biphasic lipid droplets with dark and lucent (saturated fatty acids) densities were also observed, accompanied by a few lysosomes containing the residual bodies of undigested lipid-containing substances. Lucent monophasic droplets were also detected in the tissues from patients with sarcoidosis. The plasma membrane was more often damaged in capillary endothelial cells containing biphasic lipid droplets, lucent monophasic droplets as well as in those with dark monophasic droplets. However, no lipid droplets were detected in capillary endothelial cells obtained from the control subjects, except in a single case. This study demonstrated that a large number of mitochondria were mobilized and showed notable morphological changes including swelling in the capillary endothelial cells in patients with sarcoidosis. A close relationship between mitochondria and lipid droplets was observed in capillary endothelial cells of the respiratory tract, and this relation may be involved in the pathogenesis of sarcoidosis.     

Cathepsin D and its prognostic value in neuroepithelial brain tumors

Expression of Cathepsin D (Cath D) in some primary neuroepithelial brain tumors and its prognostic value were studied. The research included 65 samples of human primary neuroepithelial brain tumors. There were 50 glial tumors (10 diffuse astrocytomas (DA), 15 anaplastic astrocytomas (AA), 25 glioblastomas (GB), 15 embryonic tumors (15 medulloblastomas (MB) as well as 5 samples of normal brain tissue. Immunohistochemical method was applied to monitor diffuse positive reaction in the cytoplasm of brain tumor cells, endothelial cells and tumor stromal cells and showed diffuse positive reaction for Cath D in the cytoplasm of brain tumor cells, endothelial cells and stromal cells in all analyzed samples of DA, AA, GB and MB as well as in microglial cells, neurons and in endothelial cells in all analyzed samples of normal brain tissue. Qualitative analysis of Cath D expression in the cytoplasm of brain tumor cells and endothelial cells as well as the percentage of brain tumor cells, endothelial cells and stromal cells immunopositive for Cath D showed that there was difference between analyzed brain tumor groups, but according to statistical tests the difference was not statistically significant. Survival correlated with the percentage of stromal cells immunopositive for Cath D. Survival prognosis was influenced by the percentage of stromal cells immunopositive for Cath D and tumor grade. The obtained results singled out the percentage of stromal cells immunopositive for Cath D as an independent parameter. The results of this research on the prognostic value of Cath D in some primary brain tumors of neuroepithelial origin indicate that there is real possibility to use Cath D as an independent prognostic factor in human glioma progression and thus open up possibilities for further scientific research.     

The structure of the gills of the elasmobranch,Scyliorhinus canicula (L.)

Summary The anatomy of the blood supply to the gills of the dogfish, Scyliorhinus canicula, is described. The anatomical basis for a counter-current exchange system at the respiratory surfaces is reported. Within the interbranchial septum there is a capillary network joining all the afferent branchial arterioles of the gill. The structure of the walls of the corpus cavernosum is found to be of smooth muscle cells supported by a basal lamina and connective tissue and lined by endothelial cells containing phagocytic vesicles. Both the capillary network and corpus cavernosum are suggested to function in smoothing the pressure pulses of the blood flow. Pre- and post-lamellar vessels and pre- and post-lamellar sphincters are described. The sphincters are thought to control the number of secondary lamellae physiologically in the respiratory circuit, and by retaining blood within nonperfused lamellae to act in conjunction with pillar cells (contracting in antagonism to the hydrostatic skeleton of the blood) to maintain the rigidity of secondary lamellae in the water current.Whorls of cells of unknown function are found within the interbranchial septum. In the epithelium lining the water channel large cells having a complexly branching plasma membrane and a very large central vacuole occurs. The cytoplasm lining the lumen contains numerous vacuoles each surrounded by a double membrane.This work formed part of a thesis submitted for the degree of Master of Science at the University of Bristol. I should like to thank Professor G.M. Hughes for the use of facilities in the Department of Zoology, University of Bristol.     

An ultrastructural study of centriolar complexes in adult and embryonic human aortic endothelial cells

Ultrastructural organization of centriolar complexes in 90 adult human aortic endothelial cells from uninvolved areas, fibrous and atheromatous plaques and 30 endothelial cells from human embryonic aorta were studied using serial sections. Primary cilia protruding from the abluminal cell surface were found on 28 of 30 endothelial cells from atheromatous plaques. Only five of 30 cells from either fibrous plaques or uninvolved areas developed primary cilia protruding to the lumen. Impaired primary cilia entirely immersed into the cytoplasm were found in embryonic endothelial cells. It was speculated that both the modes of formation and the functions of endothelial cilia in embryonic and adult aortas are different.     

Scanning- and transmission electron-microscopic study of lymphatic vessels in the splenic white pulp of the macaque monkey

Summary The fine structure of the lymphatic vessels in splenic white pulp of the macaque monkey was studied by scanning and transmission electron microscopy.Lymphatic vessels were slit-like or widened channels which extended along central arteries and their large branches. The walls of the vessels were very thin in comparison with those of nearby arteries. They were composed only of a layer of endothelium supported by underlying reticular cells. Endothelial cells were mostly ribbon-like and extended along the long axis of the vessels. Perikarya of the endothelial cells were slightly protruded into the lumen. The thin peripheral cytoplasm showed smooth surfaces, except for some tiny processes, especially at boundaries between adjacent cells. The basal surface of the endothelial cells was attached to the lattice of reticular cell processes forming the framework of the white pulp. Basal laminae in strands were intercalated between endothelial cells and reticular cells. Perforations were often seen through the endothelial cell cytoplasm. Lymphocytes or processes of macrophages seen in the perforations were considered to be in migration. Large patent openings through the endothelium were not observed. The wall structure of the lymphatic vessels in the splenic white pulp suggests that lymphocytes in the white pulp may move directly into the lymph flow, in addition to moving into the blood flow via the vascular sinuses.Supported by Research Grant-in Aid from the Ministry of Education, Japan (Grant NO. 56480081).