Morphologic and histochemical study of blood capillaries in boar testes: effects of abdominal cryptorchidism

BACKGROUND: Few data exist about the features of testicular microvasculature under normal and pathologic conditions. METHODS: The morphology and lectin affinity of testicular capillaries were examined in healthy boars and in unilateral and bilateral abdominal cryptorchid boars. RESULTS: The capillaries of scrotal testes contained a) the endothelial layer formed by two cells, b) the basal lamina constituted by collagen fibers and glycoconjugates with fucosyl, galactosyl, glucosyl, and neuraminic acid residues, and c) the pericyte layer formed by a single cell. These components participated in substrate exchange between blood and testicular tissue. The abdominal testes showed increased numbers of capillaries, which could exhibit a mature appearance, but also angiogenic or degenerative patterns. Angiogenesis was manifested in interstitial capillaries and was characterized by a) proliferation of endothelial cells, b) decreased thickness and decreased content of collagen fibers and glycoconjugates in the basal lamina, and c) lack of pericytes. Degenerative capillaries lay in association with seminiferous tubules and showed a) pyknotic endothelial cells; b) thickening, collagenization, and altered glycoconjugate content in the basal lamina; and c) increased development of pericytes. The angiogenesis of interstitial capillaries resulted in high vascular permeability, and the degeneration of intertubular capillaries led to defective substrate exchange between blood and seminiferous tubules. CONCLUSIONS: Unilateral abdominal cryptorchidism did not alter the morphology and function of capillaries in the scrotal testis. Unilateral and bilateral abdominal cryptorchidism resulted in increased numbers and abnormal morphology and function of capillaries in abdominal testes. The proliferation of interstitial capillaries correlated with the immaturity of Leydig cells, and the degeneration of intertubular capillaries correlated with the thickening of the lamina propria.     

Ultrastructural and histochemical investigation of the terminal capillaries in the spleen of the carp (Cyprinus carpio L.)

Summary In the spleen of the carp arterial capillaries of a highly differentiated structure have been studied by light and electron microscopy. These capillaries share various structural characteristics with the sheathed capillaries (ellipsoids of Schweigger-Seidel) of higher vertebrates. The long arterial capillaries of the carp spleen are provided with cuboidal endothelial cells containing filaments approximately 7 nm in diameter. There is no basal lamina. The endothelial cells form various types of cell junctions, but there are also extensive areas without any junctions. Here, a free passage is possible between the capillary lumen and the subendothelial space. The capillaries possess a single-layered sheath of macrophages. Characteristically, the sheath macrophages possess long and slender cell processes forming a loose framework, the meshes of which are filled with lymphocytes and spindle cells. The sheath macrophages show a zone of ectoplasm rich in filaments. They also contain numerous phagolysosomes rich in hydrolytic enzymes, as identified histochemically. The sheath is sharply limited against the pulp by a thick layer of collagen fibers.     

Ultrastructure of the blood vessels in the Harderian gland of the hamster (Mesocricetus auratus): existence of sinusoids

The Harderian gland blood supply of female and male hamsters was studied using light and electron microscopy. A profuse vascularization surrounding secretory acini was observed. Among the blood vessels, the existence of large and irregular sinusoidal capillaries was apparent. These sinusoids appeared in close association to the basal aspect of the secretory cells. Typical, small, fenestrated capillaries were also observed within the connective tissue. The existence of this particular vascularization together with other morphological features of the secretory cell basal pole suggest a possible endocrine function of these orbital glands.     

A comparison of membrane enzymes of human and pig oesophagus; the pig oesophagus is a good model for studies of the gullet in man

Summary The distribution and relative catalytic activities of five plasma membrane enzymes (alkaline phosphatase, dipeptidyl peptidase IV, γ-glutamyl transpeptidase, microsomal alanyl aminopeptidase and glutamyl aminopeptidase) were examined in human and pig oesophagus. In both species, alkaline phosphatase activity occurred in basal and suprabasal cells of the epithelium and in capillaries. Stromal cells in the human submucosa were particularly reactive. Dipeptidyl peptidase IV was present in blood vessels and capillaries in man and pig and in submucous glands in the pig. The enzyme was also present in both species in the lamina propria cells immediately adjacent to the epithelial basal lamina. In the human, γ-glutamyl transpeptidase occurred in the epithelial basal cells and in isolated basal and lower prickle cells in the pig. Stromal cells in the human submucosa were strongly reactive and capillaries in the muscularis propria in both species moderately active. Microsomal alanyl aminopeptidase was detected in lamina propria cells adjacent to the epithelial basal cell layer in man and pig and at the apices of mucous cells in pig submucous glands. Weak glutamyl aminopeptidase activity was confined to capillaries in both species. The findings of this study, along with the ready availability of pig oesophagus, suggest that the pig may be a suitable model for studies of the gullet in man.     

Comparative distribution of four lysosomal enzymes within various structures of the human placenta

The histochemical activity of 4 lysosomal enzymes, acid phosphatase (AP), nonspecific esterase (NE), aryl sulphatase (AS), and beta-glucuronidase (BG), was compared in following structures of the human placenta: syncytiotrophoblast, villous stromal cells, fetal capillaries and larger blood vessels, cells of basal plate, macrophages, and Hofbauer cells. In spite of a general similarity in distribution of the investigated enzymes, differences concerning particular structures were found. Thus positively stained granules in endothelia of capillary vessels were revealed only in the reaction for BG, although contours of capillaries were also outlined by the diffuse reaction product for AS. The muscular layer of larger vessels reacted strongly for AS and weakly for NE with the remaining reactions being negative. In syncytiotrophoblast, BG appeared much less active than the other 3 enzymes. The possible significance of the BG positive granules in endothelial of capillaries and of the occasional divergence in distribution of the classical lysosomal markers (AP and BG) is discussed.     

Ultrastructure of the Blood System in the Phoronid Phoronopsis harmeri Pixell, 1912: 1. Capillaries

Four types of blood capillaries of the phoronid Phoronopsis harmeri are described. These are capillaries of the tentacles, of the body, of the stomach plexus, and of the vasoperitoneal tissue. The wall of capillary consists of cells of the coelomic lining, a layer of extracellular matrix, and separate endothelial cells. Myoepithelial coelomic cells of tentacle capillaries contain cross-striated fibers. In capillaries of the body and the stomach plexus, the myofilaments are smooth. In the cells of the wall of vasoperitoneal tissue capillaries, myofilaments are lacking. The cells of the vessel wall of the tentacles, the body, and the vasoperitoneal tissue bear a single cilium. The cells of capillaries of the stomach plexus lack a cilium. The ultrastructure of erythrocytes and amebocytes is described. In the cytoplasm of erythrocytes, there is a basal body. It is assumed that erythrocytes originated from the ciliary cells of the wall of the blood vessels.     

Morphological observations on the unique paired capillaries of the opossum retina

Light-microscopic and ultrastructural analysis of the ocular tissues of the North American opossum (Didelphis virginiana) revealed that the arterial and venous segments of retinal vessels, including capillaries of the smallest calibre, occur in pairs. They do not form anastomotic networks, the common pattern in mammals with vascularised retinae, but instead the two segments of the pair join to form hairpin end loops. The pairedd vessels, with the arteriolar limb usually on the vitread aspect, penetrate the retina and branch to form three distinct layers of capillaries. The most superficial lies in the nerve fiber layer, the middle is situated in the inner nuclear layer and the deepest extends to the external limiting membrane, which is considerably deeper than in normal mammalian holangiotic retinae. The paired capillaries display classical morphological features of central nervous system capillaries, i.e., they are lined by continuous endothelial cells united by tight junctions. The lining endothelium is supported by a distinct basal lamina that splits to envelop pericytes. The latter, although abundant, are invariably interposed between the two vessels that form each vascular unit. Phylogenetic and functional aspects of this unique form of retinal vascularisation are discussed.     

BASAL LAMINA: THE SCAFFOLD FOR ORDERLY CELL REPLACEMENT : Observations on Regeneration of Injured Skeletal Muscle Fibers and Capillaries

To explore in detail the relationships between basal lamina (BL) and regenerating cells, we have studied the reconstruction of skeletal muscle fibers and their associated capillaries in portions of rat and rabbit skeletal muscles after injury with either freezing, ischemia, or in situ autografting. Each type of injury produces complete necrosis of cells. The BL, however, remains intact in the area of injury and maintains a "map" of the outline of the spatial relationships between muscle fibers and capillaries. Repopulation of the defect with new cells occurs primarily along the old BL. The spatial relationship between cells, as it existed before injury, is thus reestablished. This process appears to be aided by the ability of each category of regenerating cells to grow along the cell-supporting surface of its own BL. The regenerating cells of muscle fibers and capillaries frequently form a new layer of BL. It is of the usual thickness and is deposited primarily along the outer surfaces of plasma membranes in locations in which the new cells are separated from the old BL. Where an old layer of BL is present overlying a newly formed layer, the old layer may be retained or it may be removed. Removal of redundant BL is probably mediated by interstitial cells which embrace the outside surfaces of BL of regenerated skeletal muscle fibers and capillaries.     

Characteristics of the interaction of 9,10-dimethyl-1,2-benzanthracene with the hairy cells in the central nervous system]

The implantation of a pill containing carcinogen DMBA into the right hemisphere of the rat brain induces the formation of a capsule, the innermost layer of which is composed of "hairy" cells. Two principally different mechanisms of carcinogen penetration into the "hairy" cell were distinguished: ordinary phagocytosis and biochemical interaction of carcinogen with the cell membrane. It is supposed that in the second case there occurs formation of secondary carcinogenic products in the form of steroid hormone which could be morphologically identified as lipid-like structures of the "hairy" cell.     

Fine structure of the epidermis of the mudskipper,Periophthalmus modestus (Gobiidae)

The ultra-structure of the epidermis of the mudskipper,Periophthalmus modestus, was examined by both light and transmission electron microscopies. The epidermis is exceptionally not well endowed with mucous or granular cells. Filament-containing cells occur in three distinct layers of the surface, middle and basal epidermis. The surface layer is further subdivided into two layers, an outermost and less superficial one. Two different cell types were identified in the epidermis. Type I cells are fiat cells in a single stratum. Type II cells are enormous cells, characterized by having a large vacuole in the cytoplasm. The outermost layer is composed of a free surface of Type I cells and numerous microridges covered with a fuzzy, fibrillar substance. The “fuzz” forms a cuticule-like structure, but keratinization as found in terrestrial animals does not occur. The superficial layer contains Type I cells and intraepithelial blood capillaries. When Type I cells become senescent, numerous intercellular spaces are formed in the plasma membranes of adjacent cells, with the senescent cells finally falling off. Just beneath these cells, however, young cells of Type I are always found. The blood capillaries are usually reinforced with young Type I cells. A large volume of oxygen may be absorbed through the skin using the blood capillary network. The middle layer contains several strata of Type II cells. The special corky structure of these cells seems to play an important role in thermal insulation and protection against ultraviolet light in relation to life out of water. However, by comparison with terrestrial animals, the histological design of the epidermis of this goby appears incomplete, so as to reduce desiccation on land, owing to the epidermis lacking a keratinized stratum. The differentiation of the epidermis seems to be an adaptation for a terrestrial habit in this species.     

Differentiation of the embryonic disc, amnion, and yolk sac in the rhesus monkey

The inner cell mass of the blastocyst has differentiated into epiblast and hypoblast (primitive endoderm) prior to implantation. Since endoderm cells extend beyond the epiblast, it can be considered that both parietal and visceral endoderm are present. At implantation, epiblast cells begin to show marked evidence of polarity. They form a spherical aggregate with their basal ends toward the basal lamina and apical ends toward the interior. The potential for an internal space is formed by this change in polarity of the cells. No cytological evidence of separation of those cells that will form amniotic epithelium from the rest of the epiblast is seen until a cavity begins to form. The amniotic epithelium is originally contiguous with overlying cytotrophoblast, and a diverticulum remains in this position during early development. Epiblast forms a pseudostratified columnar epithelium, but dividing cells are situated toward the amniotic cavity rather than basally. The first evidence of a trilaminar disc occurs when a strand of cells contiguous with epiblast is found extending toward visceral endoderm. These presumptive mesoderm cells are undifferentiated, whereas extraembryonic mesoderm cells are already a distinct population forming extracellular materials. After implantation, visceral endoderm cells proliferate forming an irregular layer one to three cells thick. Visceral endoderm cells have smooth apical surfaces, but very irregular basal surfaces, and no basal lamina. At the margins of the disc, visceral endoderm is continuous with parietal endoderm and reflects back over the apices of the marginal visceral endoderm cells. This sacculation by visceral endoderm cells precedes pinching off of the secondary yolk sac from the remaining primary yolk sac.     

Structural features of forming and developing blood capillaries of the enamel organ of rat molar tooth germs observed by light and electron microscopy

The process of vascularization of the enamel organ, a unique epithelial structure, occurs when the tooth germ is fully developed, i.e., at the onset of dentinogenesis. Although the three-dimensional organization of the capillaries has been previously investigated, the structural features underlying the formation of the new capillaries remains poorly understood. Thus, in the hope of better understanding the mechanism of formation of the stellate reticulum capillaries, upper first molar tooth germs of newborn and 3-day-old rats were fixed in glutaraldehyde-formaldehyde and processed for light and electron microscopy. Our results showed that blood capillaries are initially in close proximity to the outer enamel epithelium. Between and intercalated with the capillaries are round/ovoid clusters of cells, some of which are vacuolated, closely apposed to the outer enamel epithelium. The outer enamel epithelium is not a continuous layer, but exhibits gaps between the cells. This suggests that the capillaries penetrate the enamel organ through these gaps, since no invagination of the epithelium was observed. The presence of a cluster of cells containing vacuoles suggests that vasculogenesis is taking place. Images showing loss of the basal lamina, proliferation of endothelial cells, presence of filopodia and lateral sprouting suggests that angiogenesis is also occurring. Thus, neoformation of capillaries of the molar enamel organ of rat seems to occur simultaneously by mechanisms of vasculogenesis and angiogenesis.     

The circulatory system of Amphioxus (Branchiostoma floridae). I. Morphology of the major vessels of the pharyngeal area

In order to clarify the morphology of the circulatory system of amphioxus the blood vessels were investigated using modern techniques of light and electron microscopy. The pattern of circulation in amphioxus is forward ventrally and backwards dorsally. In addition, circulating corpuscles, usually associated with the blood of higher chordates, are absent. The circulatory system of amphioxus consists of well defined contractile vessels and vascular spaces or sinuses within a connective tissue matrix. The contractile vessels have a discontinuous endothelial lining resting on a basal lamina and are enclosed by a simple layer of contractile myoepithelial cells. Discontinuous endothelial linings occur throughout the vascular tree, including major and minor afferent and efferent vessels and blood sinuses. This is in contrast to higher animals where the endothelium forms a more or less continuous lining along the inner surface of the boundary layer. It is suggested that the endothelial cells of amphioxus, like the endothelial cells in capillaries of higher chordates, most likely play a role in the physiology of the circulatory system by removing residues of filtration from the basal lamina, thereby facilitating an exchange of materials to and from the surrounding tissues.     

Ultrastructure of the capillaries of nerve tissue transplants growing in the anterior chamber of the eye

Blood capillaries have been studied electron microscopically in the areas of grafts (rat embryonal hippocamp and septal cerebral parts transplanted to mature rats) containing mainly nervous, glial or connective tissue cells. Certain differences in the capillary wall structure have been revealed. In areas with a great concentration of nervous cells, the blood capillaries are characterized by a dense arrangement of cellular elements in their walls, a continuous layer of the glial end-feet, this is specific for the CNS capillaries providing the blood--brain barrier. In peripheral area of the grafts, where glial elements predominate, the capillaries have loose arrangement of the mural cellular elements, great endotheliocyte activity, thick connective tissue tunic, lack of a dense glial surrounding. These characteristics make dubious the statement whether these capillaries possess the blood--brain barrier function. In places where connective tissue cells make aggregates, the capillaries do not possess the barrier properties because of perforations and fenestrae in endothelium and interruptions of the basal membrane, absence of pericapillary glial elements. All types of the capillaries demonstrate certain signs of a high functional activity. Formation of the capillary structure depends on the surrounding tissue.     

Submicroscopic analysis of the microcirculatory system of the pancreas in several vertebrates]

The metabolic link of the microcirculatory system of the exocrinous part of the pancreas studied electron microscopically in the frog, chicken and rat has a general plan of the structure. It consists of capillaries, pericapillary gap and intercellular clefts of glandular cells connected with it. But in the frog and chicken the adventitional layer was found to be absent from the blood capillary wall, the luminal surface of endothelial cells was increased. The width of the basal layer and intercellular clefts in the rat was less than in other objects. The existence of cytoplasmic spiculae of exocrinous pancreocytes in the pancreas of different vertebrates allows to consider them as an element of the exocrinous part microcirculatory system.     

Ovarian steroids in endometrial angiogenesis

Angiogenesis, the sprouting of new blood vessels from pre-existing ones, is fundamental for human endometrial development and differentiation, which are necessary for implantation. This vascular process is supposed to be mainly mediated by the vascular endothelial growth factor (VEGF), also named vascular permeability factor (VPF). We report here the expression and modulation of VEGF and its receptors, Flk-1/KDR and Flt-1, in the functionalis throughout the menstrual cycle. Using immunocytochemistry, VEGF is localized in glandular epithelial cells and in the surrounding stroma, as well as in capillaries and spiral arterioles. The localization of VEGF on the endothelium correlates with the presence of Flt-1 and Flk-1/KDR receptors on vascular structures, including capillary strands that have not yet formed a lumen and that have been previously described in tumors as angiogenic capillaries. The strongest immunoreactivity for both VEGF and Flk-1/KDR receptor on endothelial cells is detected in the proliferative and midsecretory phases. Enhanced expression of VEGF and its Flk-1 receptors on narrow capillary strands during the proliferative phase may account for the rapid capillary growth associated with endometrial regeneration from the residual basal layer following menstrual shedding of the functionalis. The vascular expression of Flt-1 is more important in the secretory than in the proliferative phase, associated with a high microvascular density and an increase in vascular permeability in the implantation period. Consistently with these in vivo observations, the treatment of isolated endometrial stromal cells with estradiol (E(2)), or E(2) + progesterone, significantly increased VEGF mRNA over the control value in a dose-dependent manner. These results demonstrate that the expression of VEGF and its receptors is cyclically modulated by ovarian steroids, and that this endothelial growth factor acts on the endothelium in a paracrine fashion to control endometrial angiogenesis and permeability.     

Structure of the skin of an air-breathing mudskipper, Periophthalmus magnuspinnatus

The epidermis of the mudskipper Periophthalmus magnuspinnatus consisted of three layers: the outermost layer, middle layer and stratum germinativum. Extensive vascular capillary networks were present near the superficial layer of epidermis and outermost layer. The diffusion distance between the vascular capillaries and the surface of epidermis was c . 1.5 ± 0.9μm. The middle layer consisted of small or voluminous cells swollen by epidermal cells. Due to the swollen cells, the thickness of the epidermis increased and the epidermis appeared web-like. The swollen cells contained tonofilaments, lucent contents and desmosomes. Fine blood capillaries were also discernible in this layer. Well-developed lymphatic spaces containing lymphocytes existed in the stratum germinativum. Numerous blood capillaries were present under the basement membrane. The dermis consisted of a stratum laxum and stratum compactum, and there was a definite area with acid mucopolysaccharides and a small scale in the stratum laxum. The skin had an epidermal pigment cell, dendritic melanophores (-cytes) containing melanin granules within their cytoplasm, and two kinds of dermal pigment cells, melanophores and colourless pigments containing reflecting platelets.     

Cellular localization of apolipoprotein D and lecithin:cholesterol acyltransferase mRNA in rhesus monkey tissues by in situ hybridization

Apolipoprotein D (apoD) and lecithin:cholesterol acyl transferase (LCAT) are found on high density lipoprotein particles (HDLs) and have been postulated to form part of a complex involved in the transport of cholesterol from peripheral tissues to the liver for excretion. We have examined the sites of synthesis of the mRNAs for these two proteins in the rhesus monkey by in situ hybridization. ApoD mRNA-containing cells were widely distributed throughout peripheral tissues in interstitial and connective tissue fibroblasts often associated with blood vessels or capillaries. ApoD mRNA was also found localized in cells associated with peripheral nerves, neuroglial cells, cells in the subarachnoid space on the surface of the brain including the pial cells, perivascular cells, and scattered neurons in the brain. LCAT demonstrated a much more restricted pattern of synthesis and was found to be synthesized by hepatocytes, the basal cell layer of the epidermis, and in brain cell populations distinct from those that synthesize apoD. In the brain LCAT was synthesized by scattered neurons, neuroglial cells, ependymal cells, as well as a discrete cell layer in the cerebellum. ApoD has been shown to possess extensive homology to retinol binding protein, which has a binding pocket for vitamin A. We propose that apoD may also function to bind cholesterol or its derivatives in compartments not in direct contact with the blood. The findings of both apoD and LCAT synthesis in the brain suggest that they play a significant role in lipid transport in the brain.     

Electron microscopic study of the open circulatory system of the shrimp,Caridina japonica. I. Gill capillaries

The ultrastructure of the phyllobranchiate type gill of the shrimp, Caridina japonica, was studied. The most characteristic feature of the open circulatory system of Cardina is the vascular lumen of the gill capillaries which is considered to be the interstitial space. The following observations substantiate this view: (1) a thin fibrous layer forms the innermost structure of the walls of gill capillaries and is in direct contact with the blood stream; (2) filaments in the fibrous layer are assumed to correspond to the reticular fibers in the interstitial space of the alveolar wall of mammals; (3) the absence of the endothelium as well as the endothelial basal lamina which are the essential structural components of the closed circulatory system in vertebrates. The gill epithelium contains intermediate, septate and tight junctions. The first two form a junctional complex near the apical cell border and may function as a permeability barrier by occluding the intercellular space as well as functioning in electrical coupling and cellular adhesion. The tight junction is spot-like and may serve no role in the function of the permeability barrier.     

Fine structure of the respiratory lamellae of teleostean gills

Summary The blood-water pathway in respiratory lamellae of teleostean gills consists of an epithelial layer one or two cells thick, a basal lamina and a thin layer of cytoplasm which lines the blood lacunae. This layer of cytoplasm is formed by flange-like extensions of the pillar cells. The resulting location of the pillar cell perikarya between the surfaces of the blood lacunae is probably of paramount importance for maintenance of the flattened form of the lamellae.Collagenous bundles traverse the pillar cells within tubes formed by infolding of the cellular surface. These bundles, which are oriented normal to the flattened aspect of the lamellae, no doubt provide further protection against distension or collapse of the blood spaces. A compartment filled with collagenous tissue is interposed between the basal lamina and the lining layer of the lacunae in some of the species studied.Regulation of blood flow to the respiratory surfaces is thought to result in part from contraction of the pillar cells. This contractility presumably resides in tracts of filaments which course through the cytoplasm of the pillar cells parallel to the collagenous bundles. Since nervous tissue has not been demonstrated within the gill lamellae it is possible that contraction of the pillar cells is under some form of hormonal control, although existence of local control mechanisms (e.g. self-stimulation of the cells as a result of anoxia) is not excluded.Within the limited number of species studied, the structure of the blood-water pathway does not appear to be correlated with the characteristics of the normal habitat of a particular species.This work was performed during the tenure of a post doctoral traineeship under USPHS Grant 5 T 1 GM-136 to the Department of Biological Structure, University of Washington.Particular thanks are due Dr. John H. Luft of the University of Washington for his advice and criticism while this work was in progress and to Drs. Douglas Kelly, James Koehler and Daniel Szollosi for critical assistance with the manuscipt.