Myoendothelial contacts in glomerular arterioles and in renal interlobular arteries of rat,mouse and Tupaia belangeri

Summary Cell contacts between elements of the tunica media and the intima in the afferent and efferent glomerular arteriole and in the interlobular artery were studied and evaluated semiquantitatively in thin sections of rat and mouse kidney.In the afferent arterioles, including their juxtaglomerular portion, contacts were seen between endothelial and smooth muscle cells, and between endothelial and granulated (renin producing) cells. The form of these musculoendothelial contacts varied from simple appositions of perikarya and cell processes to extensive club-shaped indentations of endothelial cells into media cells (common) or media cells into endothelial cells (rare). Most of these cell contacts seem to contain myoendothelial gap junctions. Fewer, mostly club-shaped myoendothelial contacts were found in the interlobular arteries of rats and mice than in their afferent arterioles. Simple membrane appositions predominated among the numerous myoendothelial contacts of efferent arterioles. Similar results (without quantitative analysis) were obtained in the kidney of Tupaia belangeri. The myoendothelial contacts may allow the detection and propagation of mechanical (autoregulatory) and humoral stimuli.These studies were supported by the German Research Foundation within the SFB 90 Cardiovasculäres System     

Ultrastructure of arterioles in the cat brain

Summary A total of 110 arterioles were examined in the brains of cats; different sites were studied including the cortex, putamen, pons and crus cerebri. No internal elastic laminae were seen in the subendothelial space, although occasional fragments of elastic material were present in the larger arterioles. The media was composed of one, two or three layers of smooth muscle cells which interlocked in such a way that the vessel wall thickness was constant. Numerous tight junctions were seen between adjacent smooth muscle cells and between the endothelium and smooth muscle cells. Apart from the usual cell organelles, the smooth muscle cells of arterioles had numerous dense patches on the cell surface. The structure of the adventitia varied according to the diameter of the vessel and the site in the brain; it contained adventitial cells, bundles of collagen fibres and nerve fibres. Innervation of arterioles was more constant in the brain stem than in the cortex. Metarterioles had less specialised, atypical smooth muscle cells, a discontinuous media and numerous, extensive myoendothelial tight junctions; they were not innervated by nerve fibres. The diameter of metarterioles was less than 10 m whereas that of arterioles was 10–45 m. The possible functional aspects of arteriolar innervation are discussed.     

Studies on the fine structure of invertebrate blood vessels

Summary The position, structure and function of the valves within the lateral sinus of the medical leech, Hirudo medicinalis, are described on the basis of vital, light- and electron microscopy. In this species the valvular apparatus consists of multiple elongated fir cone-shaped fibrous villi surrounding the orifices of the latero-lateral and latero-dorsal vessel like a tentacular crest. Each villus is covered by a thin sheet of a continuous endothelium. The valves prevent the backflow of hemolymph during systolic contraction of the lateral sinus.The endothelium contains many small mitochondria and polyribosomes in the perinuclear cytoplasm and it develops deep projections into the underlying connective tissue. Each of these consists of a multilayered system of closely interwoven thin endothelial membranes. The endothelium is anchored to its basement membrane by means of a great number of poorly defined hemidesmosomes. The fibrous tissue of the villi consists mainly of a homogeneous vitreous matrix in which few cellular components and very fine filaments are dispersed. Close to the endothelium this matrix appears to be condensed to form a multilayered framework made out of a basement membrane-like material.Though the valves themselves are devoid of muscle cells, those situated at their base and thus belonging to the vascular wall proper, display some specific morphological features: in particular the nuclei of these cells show a distinct fibrous lamina. Moreover, these muscle cells seem to be innervated only by one type of axon, containing both small, lucent synaptic vesicles as well as some of the dense-core variety.These findings are compared with data from earlier works and are discussed in relation to the hemodynamic functions of this valvular apparatus.     

Ultrastructure de l'endomètre humain normal

Résumé L'étude du chorion cytogène de 15 endomètres humains normaux prélevés à divers moments du cycle menstruel a précisé d'importantes variations des vaisseaux et des cellules.Les vaisseaux subissent une maturation progressive: en phase proliferative moyenne, des pointes d'accroissement se forment à partir du réseau vasculaire profond activé; au milieu du cycle, elles se transforment en capillaires typiques; en phases sécrétoires moyenne et avancée, des péricytes migrent dans le chorion cytogène et se différencient en cellules choriales.Ces cellules choriales, dites fixes, ont une évolution biphasique au cours du cycle menstruel. Au milieu de chacune des phases, proliférative et surtout sécrétoire, les cellules choriales fixes, dites alors fibroblastoïdes, montrent une intense activité de synthèse. A ces périodes de synthèse succède une involution cellulaire, peu marquée en fin de phase proliferative, intense en phase sécrétoire avancée.Les cellules dites prédéciduales sont des cellules choriales fixes involuées et hyperhydratées; elles vont, en phase menstruelle, évoluer de plusieurs façons: la plupart d'entre elles régénèrent, certaines se nécrosent focalement ou totalement, d'autres font preuve d'activité macrophagique, en particulier collagénolytique.

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Ultrastructure of the normal human endometriumI. The stroma

Summary 15 human endometria during the normal menstrual cycle have been investigated. Important alterations of the vessels and the stroma cells occur.The vessels are the site of gradual maturation. In the mid proliferative phase, growing capillaries rise from the deep-seated vascular system. In the middle of the cycle, they change into typical capillaries. In the mid and late secretory phases, pericytes leave the walls of the capillaries and differentiate into stroma cells.These stroma cells undergo a biphasic cyclic evolution. The middle of the proliferative and particularly of the secretory phase is marked by an intensive synthetic activity of the stroma cells which are called, at this time, fibroblastoïd stroma cells. These two periods of synthesis are followed by cellular involution, mild in the proliferative, intense in the secretory phase.The so-called predecidual cells are hyperhydrated involuted stroma cells. In the menstrual phase they behave very differently of: the majority regenerates, some predecidual cells are the site of focal or total necrosis, others show a macrophagic activity which is conspicuous in some cells having a collagenolytic activity.

Nous remercions Monsieur le Professeur Gandar, Directeur de la Clinique Gynécologique et Obstétricale 1 de la Faculté de Médecine de Strasbourg de nous avoir confié, pour examen ultrastructural, le matériel nécessaire à cette étude.     

Nervous system of the snail Helix aspersa

Summary The fine structure of vascular channels and amebocytes associated with the sheath of the infraesophageal ganglion of Helix aspersa, is described. The extracellular stroma of the sheath, together with the hemocoel and blood vessels, forms an interconnected system of pathways which appears to be involved in the transport of metabolites, amebocytes, hemocyanin and experimentally introduced opaque tracers. The hemocoel, blood capillaries and precapillaries are lined by a discontinuous layer of single muscle cells whose luminal aspect is covered by a lamina of extracellular material named the vascular coat. This coat consists of a ground substance that forms a basement membrane and filamentous elements some of which are collagenous. Gaps in the blood vessel wall seem to provide the main routes for the movement of cells and large molecules to the hemocoel. Tracer experiments have given support to the idea that a diffusion barrier may be absent at the sheath-ganglion junction. Amebocytes have phagocytic properties; they appear associated in groups or scattered singly within the extracellular space of the sheath and the lumen of blood vessels. Single amebocytes have features of mobile cells and may function in the transport of hemocyanin as well as other proteins.This work has been supported by the Rockefeller Foundation and grants NB 06662 (from the U.S. Public Health Service) and N-105 (from Conicyt, Santiago, Chile). The continuous advice and encouragement of Drs. R. W. Guillery and D. B. Slautterback are gratefully acknowledged.     

Ultrastructural autoradiographic localization of serotonin in the pituitary of a teleost fish,Poecilia latipinna

Summary Light- and electron-microscopic autoradiographic studies of pituitaries of the molly Poecilia latipinna, after their incubation with tritiated serotonin, revealed the presence of labelled cells in the proximal pars distalis, together with cell processes or nerve fibres throughout all regions of the gland except the prolactin cell zone. The serotonincon-centrating cells and most of the fibres contained small dense-cored vesicles, but some labelled fibres contained larger granules similar in ultrastructure to those of vasotocinergic fibres.This work was supported by a SERC studentship to DJG and SERC grant GR/6379-06 to Professor J.N. Ball     

Ontogeny of the photoreceptors in the embryonic retina of the viviparous guppy,Poecilia reticulata P. (Teleostei)

Summary Ultrastructural analyses of retinal development in the guppy embryo show that at midgestation all types of photoreceptors are differntiated in the fundus, and at birth differentiation extends over the whole retina. Formation of discs of outer segments is more rapid in rods than in cones. Double cones differentiate simultaneously with long single cones and are formed by the adhesion of two primordial inner segments; short single cones develop last. Wherever cones are differentiated, they are arranged in an adult-type square mosaic. The rods in the embryo, as opposed to the adult, are likewise regularly arranged within the mosaic unit.These results are at variance with the generally held opinion that adult teleosts which possess duplex retinae have larvae with pure cone retinae, and that rods, double cones and mosaics appear in late larval life or only at metamorphosis.In the double cones of the guppy embryo subsurface cisternae develop along the adjoining primordial inner segments. Additionally, regularly distributed subsurface cisternae are formed in the regions of intimate contact of long single cones with double cones and rods.We suggest that the early development of rods and double cones, and a square-mosaic with regular distribution of rods and subsurface cisternae, provide the newly born with a fully functional optical apparatus, especially suited to perception of movements. This is necessary for its survival against predatory, especially maternal, attacks.This work was in part subsidized by a grant from the Medical Research Council of Ireland to Y.W.K.     

Changes in metabolism and hepatic ultrastructure induced by estradiol and testosterone in immature female Epinephelus akaara (Teleostei,Serranidae)

Summary Estradiol injections increase serum level of calcium, amino acid, glucose, protein, ammonia and creatinine in immature Epinephelus akaara, and also increase levels of total lipid, cholesterol, phospholipid and esterified fatty acids. Hepatic protein, glycogen and lipid concentrations also rise after estradiol treatment, and some hepatic enzymes participating in the metabolism of nitrogen, lipid and carbohydrate, show increased activity. Serum vitellogenin levels are increased. Testosterone treatment increases serum protein, total lipid, cholesterol, amino acid and ammonia levels, and also hepatic glycogen content, but in contrast to estradiol treatment, testosterone does not change serum vitellogenin, glucose, calcium, phospholipid, esterified fatty acid and creatinine levels, nor the hepatic lipid and protein content. A small number of hepatic enzymes shows an increased activity. Vitellogenic fish show biochemical changes similar to that of estradiol-treated fish, but are different from those of immature fish. Estradiol treatment induces ultrastructural changes in the hepatocytes of immature fish that are similar to those found in vitellogenic fish. These include a proliferation of rough endoplasmic reticulum and Golgi apparatus, and an increase in glycogen and lipid, all indicative of enhanced metabolic activity.     

Nonconventional innervation of the pancreatic islets of the teleost fish,Gillichthys mirabilis

Summary The innervation of the pancreatic islets of a teleost fish, Gillichthys mirabilis, was investigated with various techniques including axonal iontophoresis of cobalt, light microscopy, and electron microscopy. Two types of postganglionic neurons, the splanchnic and the vagus, innervate the islet parenchyma. The splanchnic fibers originate from the single coeliac ganglion, situated near the third spinal nerve on the right side, and pass caudally to the islet. Postganglionic vagal fibers reaching the islets arise from ganglion cells located at irregular intervals along the vagus nerve.Iontophoresis of cobaltous chloride revealed that both types of nerves send large numbers of fibers to the islet cells. Electron microscopy showed that the granules of the vagal fibers are polymorphic, large (130 mm diameter) and markedly electron dense, whereas the splanchnic granules are smaller (100 nm diameter) and less electron dense than those of the vagus.These granules do not correspond to those seen in postganglionic autonomic neurons of other vertebrates. Rather, they are more like classical neurosecretory granules. Although their chemical nature is unknown, the extent of islet innervation suggests that it must play an important regulatory role.Supported by a grant (AM 17161) from the National Institutes of Health     

Quantitative analysis of estradiol-17β-induced changes in the ultrastructure of the liver of the male zebrafish,Brachydanio rerio

Summary Hepatocytes of male zebrafish, Brachydanio rerio, were studied by means of light- and electron-microscopy, following a period of maximally 16 days of in-vivo treatment with estradiol-17. The responsiveness of the male hepatocytes to this female sex steroid was investigated by use of morphometric methods. The results of this investigation show that the responsiveness was most obvious between 2 and 16 days, as revealed by an increase in cell size, accompanied by a proliferation of the granular endoplasmic reticulum and the Golgi complex. In addition, accumulations of glycogen granules, which are characteristic of hepatocytes in untreated males, had disappeared and lipid droplets had accumulated. These experimentally induced changes in the morphology of the male hepatocyte closely resemble those described for the female hepatocyte during the sexual cycle. It is concluded that the hepatocytes of male zebrafish can be stimulated by estradiol-17 to produce vitellogenin and that in female zebrafish this steroid is a key sex hormone responsible for vitellogenin production by the liver during the natural sexual cycle.     

Ingrowth of optic nerve fibers and onset of myelin ensheathment in the optic tectum of the trout (Salmo gairdneri)

Summary The early differentiation of the optic pathway of the trout was studied by means of autoradiography, silver impregnation and electron microscopy. Ingrowth of optic nerve fibers into the optic tectum was consistently shown by tracer application and Golgi studies to occur at stage 28, about one week before hatching. Fibers being arranged in discrete bundles were rapidly growing through the longitudinal axis of tectum and at stage 33 reached its posterior end. Cross sections of these fiber bundles at different positions revealed myelin ensheatment to be initiated at the end of stage 34 at the anterior pole of the tectum. Since in the optic nerve of the trout the onset of myelination occurred even earlier (stage 33), it is assumed that this differentiation process follows a rostro-caudal gradient during development of the optic pathway.     

Associations jonctions-organites cellulaires dans le foie néo-natal de souris

Résumé Au cours du passage de la vie foetale à la vie postnatale, on note, dans le foie de souris, l'apparition d'associations jonctions-organites cellulaires. Celles-ci cont de deux types: associations desmosomes-organites et associations nexus-organites.1.Associations nexus-organites. Le long de la «gap junction» sont étroitement accolés, uni ou bilatéralement, divers organites: mitochondrie(s), subsurface cisterna(e), peroxysome(s) ou lysosome. Ces associations n'apparaissent qu'entre le 21ème jour de la gestation et le ler jour post-natal, période à partir de laquelle ils disparaissent au profit d'associations desmosomes-organites cellulaires. Un nouveau type de structure s'associe dans le foie aux membranes plasmatiques: il s'agit des saccules ergastoplasmatiques ou subsurface cisternae.2.Associations desmosomes-organites. Dans ces complexes, les tonofilaments desmosomiques entrent étroitement en contact avec la paroi des organites cellulaires associés: mitochondrie ou peroxysome. Déjà présents au 13ème jour de la gestation, ces structures s'observent plus fréquemment à partir du ler jour post-natal.La signification de ces associations reste à déterminer, d'autant plus que leur présence a déjà été signalée dans de trés nombreux tissus. Quelques hypothèses sont présentées.

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Cell junction-organelle complexes in the neonatal mouse liver

Summary During the transition between the fetal and postnatal periods associations between cell junctions and cell organelles appear in the liver of the mouse. These associations are of two types: desmosome-organelle and nexus-organelle.1.Nexus-Organelles Association. Unilaterally or bilaterally, various organelles — mitochondria, cysternae, microbodies or lysosomes — adhere tightly along the gap. These associations appear only between the 21st day of gestation and the first postnatal day. Thereafter they gradually disappear and are replaced by desmosome-organelle associations. Another type of structure — ergastoplasmic saccules or cisternae of rough endoplasmic reticulum — become associated with the cell membrane.2.Desmosome-Organelle Associations. In these complexes the desmosomal microfilaments are in close contact with membranes of the associated organelles — mitochondria or peroxysomes. The associations, which exist as early as the 13th day of gestation increase after the first postnatal day.The significance of these associations remains to be ascertained, especially since they occur in many other tissues. A few hypotheses are presented.

Nous remercions Mme F. Mandon, MM. R. Flageolet et M. Pezaire pour l'excellente assistance technique qu'ils nous ont apportée.     

Blood cleansing in heart atrium of <Emphasis Type="Italic">Trichogaster leerii</Emphasis> (Bleeker, 1852), Anabantidae: Teleostei

The capability and capacity of endocardial tissue in heart of Trichogaster leerii (Pearl gourami) to take up intraperitoneally injected horse-spleen ferritin and the regular content of indigestible wastes in this tissue are described. The entire heart wall was spongy composed of muscle trabeculae enveloped by flat endocardial cells. In atrium these cells were filled by Prussian blue precipitations in sections treated with acid ferrocyanide, when the period of time between ferritin-injection and sacrifice was 6 h or more. The endocardial cell layers enveloping the muscle trabeculae in ventricle or covering the wall and valves of the ventricular apertures nearly lacked such precipitations. Those endocardial cell layers capable to endocytose much foreign ferritin, also reacted strongly with Schmorl’s solution in control hearts, i.e. these atrial cells are normally rich in indigestible wastes, probably lipofuscin. We suggest that the endocytic and lipofuscin-rich endocardial cells in heart atrium may play a role in the blood clearance in T. leerii and that this cleansing in heart is restricted to atrium only in this species.     

Reformation of gap and tight junctions in regenerating liver after cholestasis

Summary Morphometric analysis of the alterations in interhepatocyte junctions induced by bile duct ligation revealed that after 48 h, during which time the serum bilirubin increased 6 to 8 fold, the membrane area occupied by gap junctions on the apico-lateral and medio-lateral sides decreased from 3.6% in controls to 0.02% in the ligated group. The strands of the zonulae occludentes were reduced in number and showed increased discontinuities.Within 45 min of recanalization of the common bile duct, clusters of particles appeared within and adjacent to the tight junctional areas or in the lateral hepatocyte membrane. Subsequently, the particle aggregations localized in the apico-lateral membrane areas increased in number and size becoming finally indistinguishable from those of controls within 96 h after the onset of recanalization. The zonulae occludentes also rearranged and reestablished their original structure during this period. The serum bilirubin fell to normal within 24 h of recanalization. It is concluded that metabolic and ultrastructural restitution associated with the recanalization of the ligated bile duct have no strict temporal correlation to one another.These studies provide further evidence that alterations in gap and tight junctions induced by pathological processes, e.g. during bile duct ligation, are completely reversible when regeneration occurs.Summer student from Harvard Medical School, Boston (USA)     

Interendothelial junctions in kidney vessels

Summary The interendothelial junctions of all segments of the renal vasculature have been studied in eight species using the freeze-fracture technique. Three types of junctions have been found. Combinations of tight and gap junction elements are characteristic for interlobular arteries and proximal afferent arterioles. Continuous tight junction strands not subdivided into individual particles are typical for the glomerular arterioles close to the glomerulus and the vasa recta. The interendothelial junctions of glomerular and peritubular capillaries and cortical veins are characterized by slight elevations decorated with sparse arrays of particles on the P-face of the endothelial cell plasma membrane.These studies were supported by the German Research Foundation within the SFB 90 Cardiovascular System.     

The ultrastructure of the human fetal pineal gland

Summary The innervation of the pineal gland, the cell junctions in this organ and junctions between ependymal cells in the pineal recess were investigated in 27 human fetuses (crown-rump length 30–190 mm).Free nerve boutons containing clear and a few dense core vesicles were present in the pineal parenchyma and in the perivascular spaces. The boutons did not make synaptic contacts with the pinealocytes. No evidence for the presence of noradrenaline in the vesicles of nerve boutons was found.Gap junctions, intermediate-like junctions and desmosomes were frequently seen between the pinealocytes. Ruthenium red was used in three fetuses as an extracellular marker.The continuous endothelial cells surrounding the capillary lumen were connected by tight junctions. This indicates the presence of a blood-brain barrier.Tight junctions were present between the ependymal cells in the pineal recess. These junctions constitute an extracellular barrier between the pineal and the cerebrospinal fluid. Acknowledgements: The author wishes to thank Inger Ægidius and Jb Machen for their technical, Ruth Fatum for her linguistic and Karsten Bundgaard for his photographical assistance     

Feinstruktur des Riechepithels von Calamoichthys calabaricus J. A. Smith (Pisces,Brachiopterygii)

Zusammenfassung Die vorliegende Untersuchung befaßt sich mit der Feinstruktur der Riechfalten von Calamoichthys calabaricus unter besonderer Berücksichtigung des Riech- und Flimmerepithels. — Das Flimmerepithel ist aus 3 Zelltypen aufgebaut: Flimmerzellen, wenigen Stützzellen und Basalzellen. Die Flimmerzellen sind mitochondrienreich und tragen bis zu 160 Flimmerhärchen pro Zelle. Diese Kinocilien besitzen an ihren Basalkörpern Zilienwurzeln, von denen ein Teil ins Zellinnere bis in Kernnähe zieht, während der andere Teil parallel zur Oberfläche verläuft und benachbarte Basalapparate verbindet. — Auch das Riechepithel, das gegen das Flimmerepithel scharf abgesetzt ist, besteht aus 3 Zelltypen: Rezeptoren, Stützzellen und Basalzellen. Die Rezeptoren haben eine einheitliche Gestalt und Struktur. Sie sind schlank keulenförmig und überragen mit einer kleinen Vesicula olfactoria die Epitheloberfläche. Seitlich sitzen an der Vesicula — unter konstant 25–27° Ablenkung von der Senkrechten — in der Regel 12 sensorische Cilien, die alle auf gleicher Höhe entspringen. Basal setzt sich das Rezeptorperikaryon in ein Axon fort. Die Axone mehrerer Rezeptoren vereinigen sich noch innerhalb des Epithels zu Bündeln, die durch die Basalmembran ins Bindegewebe ziehen. Die stark osmiophilen Stützzellen des Riechepithels durchziehen das Riechepithel von der Basalmembran bis zur Epitheloberfläche und tragen einzelne Cilien. Der verbreiterte Apikalteil der Stützzellen enthält zahlreiche Schleimvesikel, die auf eine sezernierende Funktion dieser Zellen hinweisen. Die präparative Behandlung von Riechepithelien wird kritisch diskutiert.

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Ultrastructure of the olfactory epithelium of Calamoichthys calabaricus J. A. Smith (Pisces, Brachiopterygii)

Summary The ciliary epithelium of the olfactory folds in Calamoichthys calabaricus is composed of ciliary cells, supporting cells, and basal cells. All ciliary cells contain numerous mitochondria and bear up to 160 kinocilia. Some rootlets of the basal bodies of the kinocilia, project towards the nucleus, while others run parallel to the epithelial surface and connect with neighbouring basal bodies. Ciliary and olfactory epithelia are separated from each other. — The olfactory epithelium contains olfactory receptor cells, supporting cells, and basal cells. The club shaped olfactory receptor cells have a uniform ultrastructure. The terminal portions of the olfactory dendrites form small olfactory vesicles which are seen above the olfactory surface. 12 sensory cilia project constantly to the more basal portion of the olfactory vesicles, each cilium forming a 25–27° angle with the vertical cell axis. Basally, an axon originates from each olfactory receptor cell. Axons from a number of olfactory receptor cells may combine to form bundles within the epithelium. The supporting cells of the olfactory epithelia are strongly osmiophilic. Supporting cells occur in all parts of the olfactory epithelium and bear few cilia. Numerous mucous vesicles, located within the apical region of the supporting cells, probably have a secretory function.

Mit Unterstützung durch die Deutsche Forschungsgemeinschaft.     

血管活动的个性化

机体内不同部位的血管功能活动均具有各自独特的性质,称为血管的个性,主要表现为不同器官或区域的血管对同一刺激的反应不尽相同,甚至截然相反。血管的这种生理学特征保证了血管能在不同部位与不同机能状态下作出不同反应,巧妙地完成血液循环系统的功能,满足机体不同部位的血供需要。血管活动的个性化是血管生理学中的一个重要问题,对这一问题的研究将有助于阐明血管活动的客观规律,对研究血管疾病的发生与发展也具有重要意义