Permselectivity of Angiogenic Microvessels Following Alteration of the Endothelial Fiber Matrix by Oligosaccharides (original) (raw)
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Mapping of the microcirculation in the chick chorioallantoic membrane during normal angiogenesis
Microvascular Research, 1989
The microcirculation within the chorioallantoic membrane (CAM) of the chick is particularly well suited for in vivo observation and has been used extensively as an assay to detect angiogenic activity. Although progressive chronological expansion of the CAM capillary network occurs normally during embryogenesis, descriptions of the branching patterns of CAM pre-and postcapillary microvessels during embryonic development have not been recorded. In the present study chick embryos were incubated, using an established shell-less culture technique, and observed in vivo at Days 6, IO, and 14 of embryonic development. Morphometric analyses of photomicrographs of CAM microvessels were based upon the centripetal ordering method of microvascular mapping of the first three orders of pre-and postcapillary microvessels with the capillaries serving as the initial point of reference. For both pre-and postcapillary vessels, the number of first-order vessels exceeded the number of second-order vessels which, in turn, outnumbered third-order vessels during each observation period. First-and second-order vessels progressively increased in number from Day 6 to Day 14; however, the number of third-order vessels remained essentially constant during this period. Further. the number of precapillary vessels was greater than postcapillary vessels in their respective orders at Days 6 and 10; however, by Day 14 the numbers were comparable. Average diameters and lengths of the thirdorder vessels were greater than the second-order vessels which, in turn, were greater than the first-order vessels in both the pre-and postcapillary compartments. Further, mean lengths of each of the three vessel orders in both compartments decreased progressively and by Day 14 were significantly less than at Day 6. Average diameters of each vessel order, on the other hand, remained unchanged from Day 6 to Day 14. Finally, intercapillary distances, based on measurements from fluorescent micrographs obtained after microinjections of fluorescein isothiocyanate (FITC)-dextran.
Microvascular endowment in the developing chicken embryo lung
AJP: Lung Cellular and Molecular Physiology, 2007
In the current study, the contribution of the major angiogenic mechanisms, sprouting and intussusception, to vascular development in the avian lung has been demonstrated. Sprouting guides the emerging vessels to form the primordial vascular plexus, which successively surrounds and encloses the parabronchi. Intussusceptive angiogenesis has an upsurge from embryonic day 15 (E15) and contributes to the remarkably rapid expansion of the capillary plexus. Increased blood flow stimulates formation of pillars (the archetype of intussusception) in rows, their subsequent fusion and concomitant delineation of slender, solitary vascular entities from the disorganized meshwork, thus crafting the organ-specific angioarchitecture. Morphometric investigations revealed that sprouting is preponderant in the early period of development with a peak at E15 but is subsequently supplanted by intussusceptive angiogenesis by the time of hatching. Quantitative RT-PCR revealed that moderate levels of basic FGF (bFGF) and VEGF-A were maintained during the sprouting phase while PDGF-B remained minimal. All three factors were elevated during the intussusceptive phase. Immunohistoreactivity for VEGF was mainly in the epithelial cells, whereas bFGF was confined to the stromal compartment. Temporospatial interplay between sprouting and intussusceptive angiogenesis fabricates a unique vascular angioarchitecture that contributes to the establishment of a highly efficient gas exchange system characteristic of the avian lung. sprouting angiogenesis; intussusceptive angiogenesis; vascular patterning; lung development; blood-gas barrier
Microvascular Research, 1996
During angiogenesis in the chorioallantoic membrane (CAM) of the chick, capillary proliferation occurs primarily by intussusceptive growth. Previously, we reported that such growth in the CAM proceeded without substantial macromolecular extravasation. Neovascularization involving capillary sprout formation, on the other hand, has been associated with a concomitant loss of endothelial selectivity. Thus, the present study tested the hypothesis that endothelial selectivity during angiogenesis is dependent on the mode of microvascular growth. Capillary sprout formation occurs in peripheral regions of the CAM, in addition to the more centrally located areas of intussusceptive growth. In this study, angiogenic endothelial permselectivities were evaluated in these respective areas of CAM microvascular growth by intravital fluorescent microscopy of a graded series of FITC-dextrans. In both cases, the angiogenic endothelia restricted extravasation of macromolecules §20 kDa. Furthermore, capillary sprout endothelia, like the intussusceptive CAM endothelia, remained tightly sealed at the junctional clefts. Thus, angiogenic endothelial permselectivity in the CAM is not dependent on the mode of microvascular growth. Whether distinct cellular mechanisms are operable in capillary endothelial sprouts of the CAM, relative to those of other proliferating sprout endothelia, remains to be tested. ᭧
Distribution of anionic sites on microvascular endothelium of the chick chorioallantoic membrane
Tissue and Cell, 1996
It is generally accepted that luminal surfaces of adult microvascular endothelia present an anionic barrier that limits passage of anionic macromolecules. To assess the ontogeny of the barrier, temporal and spatial expression of endothelial anionic sites was evaluated in the chorioallantoic membrane of chicken embryos from days 4.5 to 18 of incubation. After an initial flush, the vessels were perfused with cationic ferritin (CF, 1.0 mg/ml in PBS) for 2 min. Following a second flush to remove unbound CF, the chick chorioal-Iontoic membranes (CAMs) were fixed and processed for electron microscopy. Continuous CF binding was revealed on the luminal endothelium, the junctional clefts and the plasmalemmal vesicles from days 4.5 to 14. However, by day 18, anionic sites had become discontinuous. Prior perfusion with protamine sulfate abolished CF binding and facilitated native ferritin binding. Further ultrastructural evaluation, using peroxidase labeled LFA lectin, revealed sialic acid moieties in patches on the CAM endothelium. Thus, in early chick embryogenesis, the CAM endothelium displays a continuous pattern of luminal anionic sites comprised in part of sialic acid. As the CAM ages, endothelial anionic sites become reduced. That the expression of endothelial anionic domains remained constant despite changes in CAM microvascular permeability in early development serves to suggest a minimal role for anionic domains in the development of microvascular permselectivity during normal angiogenesis.
Microvascular assembly and cell invasion in chick mesonephros grafted onto chorioallantoic membrane
Journal of Anatomy, 2003
Embryonic tissues, in common with other tissues, including tumours, tend to develop a substantial vasculature when transplanted onto the chorioallantoic membrane (CAM). Studies conducted to date have not examined in any detail the identity of vessels that supply these grafts, although it is known that the survival of transplanted tissues depends on their ability to connect with CAM vessels supplying oxygen and nutrients. We grafted the mesonephros, a challenging model for studies in vascular development, when it was fully developed (HH35). We used reciprocal chick-quail transplantations in order to study the arterial and venous connections and to analyse the cell invasion from the CAM to the organ, whose degeneration in normal conditions is rapid. The revascularization of the grafted mesonephros was produced by the formation of peripheral anastomoses between the graft and previous host vasculatures. The assembly of graft and CAM blood vessels occurred between relatively large arteries or veins, resulting in chimeric vessels of varying morphology depending on their arterial or venous status. Grafts showed an increased angiogenesis from their original vasculature, suggesting that the normal vascular degeneration of the mesonephros was partially inhibited. Three types of isolated host haemangioblast were identified in the mesonephros: migrating angioblast-like cells, indicating vasculogenesis, undifferentiated haematopoietic cells and macrophages, which might have been involved in the angiogenesis. Tomato lectin was found to bind activated macrophages in avian embryos.
Biophysical Journal, 2011
The glycocalyx or endocapillary layer on the luminal surface of microvessels has a major role in the exclusion of macromolecules from the underlying endothelial cells. Current structural evidence in the capillaries of frog mesentery indicates a regularity in the structure of the glycocalyx, with a center-to-center fiber spacing of 20 nm and a fiber width of 12 nm, which might explain the observed macromolecular filtering properties. In this study, we used electron micrographs of tissues prepared using perfusion fixation and tannic acid treatment. The digitized images were analyzed using autocorrelation to find common spacings and to establish whether similar structures, hence mechanisms, are present in the microvessel glycocalyces of a variety of mammalian tissues. Continuous glycocalyx layers in mammalian microvessels of choroid, renal tubules, glomerulus, and psoas muscle all showed similar lateral spacings at~19.5 nm (possibly in a quasitetragonal lattice) and longer spacings above 100 nm. Individual glycocalyx tufts above fenestrations in the first three of these tissues and also in stomach fundus and jejunum showed evidence for similar short-range structural regularity, but with more disorder. The fiber diameter was estimated as 18.8 (5 0.2) nm, but we believe this is an overestimate because of the staining method used. The implications of these findings are discussed.
Journal of Cardiovascular Development and Disease
The chorioallantoic membrane (CAM) of the avian embryo is an intrinsically interesting gas exchange and osmoregulation organ. Beyond study by comparative biologists, however, the CAM vascular bed has been the focus of translational studies by cardiovascular life scientists interested in the CAM as a model for probing angiogenesis, heart development, and physiological functions. In this perspective article, we consider areas of cardiovascular research that have benefited from studies of the CAM, including the themes of investigation of the CAM’s hemodynamic influence on heart and central vessel development, use of the CAM as a model vascular bed for studying angiogenesis, and the CAM as an assay tool. A case study on CAM vascularization effects of very low doses of crude oil as a toxicant is also presented that embraces some of these themes, showing the induction of subtle changes in the pattern of the CAM vasculature growth that are not readily observed by standard vascular assessme...
Developmental Biology, 2012
The glycocalyx, and the thicker endothelial surface layer (ESL), are necessary both for endothelial barrier function and for sensing mechanical forces in the adult. The goal of this study is to use a combination of imaging techniques to establish when the glycocalyx and endothelial surface layer form during embryonic development and to determine the biological significance of the glycocalyx layer during vascular development in quail embryos. Using transmission electron microscopy, we show that the glycocalyx layer is present as soon as blood flow starts (14 somites). The early endothelial glycocalyx (14 somites) lacks the distinct hair-like morphology that is present later in development (17 and 25 somites). The average thickness does not change significantly (14 somites, 182 nm 733 nm; 17 somites, 218 7 30 nm; 25 somites, 212 7 32 nm). The trapping of circulating fluorescent albumin was used to evaluate the development of the ESL. Trapped fluorescent albumin was first observed at 25 somites. In order to assess a functional role for the glycocalyx during development, we selectively degraded luminal glycosaminoglycans. Degradation of hyaluronan compromised endothelial barrier function and prevented vascular remodeling. Degradation of heparan sulfate down regulated the expression of shear-sensitive genes but does not inhibit vascular remodeling. Our findings show that the glycocalyx layer is present as soon as blood flow starts (14 somites). Selective degradations of major glycocalyx components were shown to inhibit normal vascular development, examined through morphology, vascular barrier function, and gene expression.
Development and Characterization of Endothelial Cells from Rat Microlymphatics
Lymphatic Research and Biology, 2003
The lymphatic endothelium is important to the functioning of the lymphatic system, including lymphatic remodeling, control of vessel tone, and lymphatic movement of fluids, macromolecules, and cells. Many of these events occur principally at the level of the microlymphatics. To evaluate the role of the microlymphatic endothelium, a suitable cultured cell line would be useful. We have developed a technique to isolate and culture endothelial cells from microscopic lymphatics, ,100 mm in diameter.