Your search keyword '"Capillary Endothelium"' showing total 43 results

1. The putative proton-coupled organic cation antiporter is involved in uptake of triptans into human brain capillary endothelial cells

Author

Nana Svane, Alberte Bay Villekjær Pedersen, Anne Rodenberg, Burak Ozgür, Lasse Saaby, Christoffer Bundgaard, Mie Kristensen, Peer Tfelt-Hansen, and Birger Brodin

Subjects

Blood–brain barrier, Capillary endothelium, Triptans, Migraine treatment, Proton-coupled organic cation antiporter, P-glycoprotein, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Triptans are anti-migraine drugs with a potential central site of action. However, it is not known to what extent triptans cross the blood–brain barrier (BBB). The aim of this study was therefore to determine if triptans pass the brain capillary endothelium and investigate the possible underlying mechanisms with focus on the involvement of the putative proton-coupled organic cation (H+/OC) antiporter. Additionally, we evaluated whether triptans interacted with the efflux transporter, P-glycoprotein (P-gp). Methods We investigated the cellular uptake characteristics of the prototypical H+/OC antiporter substrates, pyrilamine and oxycodone, and seven different triptans in the human brain microvascular endothelial cell line, hCMEC/D3. Triptan interactions with P-gp were studied using the IPEC-J2 MDR1 cell line. Lastly, in vivo neuropharmacokinetic assessment of the unbound brain-to-plasma disposition of eletriptan was conducted in wild type and mdr1a/1b knockout mice. Results We demonstrated that most triptans were able to inhibit uptake of the H+/OC antiporter substrate, pyrilamine, with eletriptan emerging as the strongest inhibitor. Eletriptan, almotriptan, and sumatriptan exhibited a pH-dependent uptake into hCMEC/D3 cells. Eletriptan demonstrated saturable uptake kinetics with an apparent Km of 89 ± 38 µM and a Jmax of 2.2 ± 0.7 nmol·min−1·mg protein−1 (n = 3). Bidirectional transport experiments across IPEC-J2 MDR1 monolayers showed that eletriptan is transported by P-gp, thus indicating that eletriptan is both a substrate of the H+/OC antiporter and P-gp. This was further confirmed in vivo, where the unbound brain-to-unbound plasma concentration ratio (Kp,uu) was 0.04 in wild type mice while the ratio rose to 1.32 in mdr1a/1b knockout mice. Conclusions We have demonstrated that the triptan family of compounds possesses affinity for the H+/OC antiporter proposing that the putative H+/OC antiporter plays a role in the BBB transport of triptans, particularly eletriptan. Our in vivo studies indicate that eletriptan is subjected to simultaneous brain uptake and efflux, possibly facilitated by the putative H+/OC antiporter and P-gp, respectively. Our findings offer novel insights into the potential central site of action involved in migraine treatment with triptans and highlight the significance of potential transporter related drug-drug interactions. Graphical Abstract

Published

2024

2. The putative proton-coupled organic cation antiporter is involved in uptake of triptans into human brain capillary endothelial cells.

Author

Svane, Nana, Pedersen, Alberte Bay Villekjær, Rodenberg, Anne, Ozgür, Burak, Saaby, Lasse, Bundgaard, Christoffer, Kristensen, Mie, Tfelt-Hansen, Peer, and Brodin, Birger

Subjects

*ENDOTHELIAL cells, *BLOOD-brain barrier, *KNOCKOUT mice, *CAPILLARIES, *DRUG interactions, *CATIONS, *ORGANIC anion transporters

Abstract

Background: Triptans are anti-migraine drugs with a potential central site of action. However, it is not known to what extent triptans cross the blood–brain barrier (BBB). The aim of this study was therefore to determine if triptans pass the brain capillary endothelium and investigate the possible underlying mechanisms with focus on the involvement of the putative proton-coupled organic cation (H+/OC) antiporter. Additionally, we evaluated whether triptans interacted with the efflux transporter, P-glycoprotein (P-gp). Methods: We investigated the cellular uptake characteristics of the prototypical H+/OC antiporter substrates, pyrilamine and oxycodone, and seven different triptans in the human brain microvascular endothelial cell line, hCMEC/D3. Triptan interactions with P-gp were studied using the IPEC-J2 MDR1 cell line. Lastly, in vivo neuropharmacokinetic assessment of the unbound brain-to-plasma disposition of eletriptan was conducted in wild type and mdr1a/1b knockout mice. Results: We demonstrated that most triptans were able to inhibit uptake of the H+/OC antiporter substrate, pyrilamine, with eletriptan emerging as the strongest inhibitor. Eletriptan, almotriptan, and sumatriptan exhibited a pH-dependent uptake into hCMEC/D3 cells. Eletriptan demonstrated saturable uptake kinetics with an apparent Km of 89 ± 38 µM and a Jmax of 2.2 ± 0.7 nmol·min−1·mg protein−1 (n = 3). Bidirectional transport experiments across IPEC-J2 MDR1 monolayers showed that eletriptan is transported by P-gp, thus indicating that eletriptan is both a substrate of the H+/OC antiporter and P-gp. This was further confirmed in vivo, where the unbound brain-to-unbound plasma concentration ratio (Kp,uu) was 0.04 in wild type mice while the ratio rose to 1.32 in mdr1a/1b knockout mice. Conclusions: We have demonstrated that the triptan family of compounds possesses affinity for the H+/OC antiporter proposing that the putative H+/OC antiporter plays a role in the BBB transport of triptans, particularly eletriptan. Our in vivo studies indicate that eletriptan is subjected to simultaneous brain uptake and efflux, possibly facilitated by the putative H+/OC antiporter and P-gp, respectively. Our findings offer novel insights into the potential central site of action involved in migraine treatment with triptans and highlight the significance of potential transporter related drug-drug interactions. [ABSTRACT FROM AUTHOR]

Published

2024

3. Atrial natriuretic peptide does not degrade the endothelial glycocalyx: A secondary analysis of a randomized porcine model.

Author

Damén, Tor, Kolsrud, Oscar, Dellgren, Göran, Hesse, Camilla, Ricksten, Sven‐Erik, and Nygren, Andreas

Subjects

*ATRIAL natriuretic peptides, *GLYCOCALYX, *BLOOD volume, *SECONDARY analysis, *OSMOTIC pressure, *BRAIN natriuretic factor

Abstract

Background: The atrial natriuretic peptide (ANP) released from the heart regulates intravascular volume and is suspected to increase capillary permeability. Contradictory results regarding ANP and glycocalyx degradation have been reported. The aim of this study was to investigate if an infusion of ANP causes degradation of the endothelial glycocalyx. Methods: Twenty pigs, pretreated with 250 mg methylprednisolone, were randomized to receive an infusion of either ANP (50 ng/kg/min) (n = 10) or 0.9% NaCl (n = 10) during 60 min. Endothelial glycocalyx components (heparan sulphate proteoglycan and hyaluronic acid), Hct, calculated plasma volume and colloid osmotic pressure were measured from baseline to 60 min. Results: There was no difference between the control and intervention groups for heparan sulphate proteoglycan and hyaluronic acid corrected for the change in plasma volume (P =.333 and 0.197). Hct increased with 1.8 ± 2.2% in the intervention group (P =.029) with no change −0.5 ± 2.3% in the control group (P =.504). The plasma volume decreased in the intervention group with −8.4 ± 10% (P =.034) with no change in the control group 3.1 ± 12% (P =.427). Median changes in colloid osmotic pressures in the control and intervention group were −0.39 [95% CI, −1.88‐0.13] and 0.9 [95% CI, 0.00‐1.58], respectively (P =.012). Conclusions: In this randomized porcine study, an ANP infusion did not cause endothelial glycocalyx degradation but decreased the plasma volume most probably due to precapillary vasodilation and increased filtration. [ABSTRACT FROM AUTHOR]

Published

2021

4. Cardiac Metabolism and Contractile Function in Mice with Reduced Trans-Endothelial Fatty Acid Transport

Author

Tatsuya Iso and Masahiko Kurabayashi

Subjects

cardiac metabolism, fatty acid, glucose, capillary endothelium, trans-endothelial fatty acid transport, TCA cycle, Microbiology, QR1-502

Abstract

The heart is a metabolic omnivore that combusts a considerable amount of energy substrates, mainly long-chain fatty acids (FAs) and others such as glucose, lactate, ketone bodies, and amino acids. There is emerging evidence that muscle-type continuous capillaries comprise the rate-limiting barrier that regulates FA uptake into cardiomyocytes. The transport of FAs across the capillary endothelium is composed of three major steps—the lipolysis of triglyceride on the luminal side of the endothelium, FA uptake by the plasma membrane, and intracellular FA transport by cytosolic proteins. In the heart, impaired trans-endothelial FA (TEFA) transport causes reduced FA uptake, with a compensatory increase in glucose use. In most cases, mice with reduced FA uptake exhibit preserved cardiac function under unstressed conditions. When the workload is increased, however, the total energy supply relative to its demand (estimated with pool size in the tricarboxylic acid (TCA) cycle) is significantly diminished, resulting in contractile dysfunction. The supplementation of alternative fuels, such as medium-chain FAs and ketone bodies, at least partially restores contractile dysfunction, indicating that energy insufficiency due to reduced FA supply is the predominant cause of cardiac dysfunction. Based on recent in vivo findings, this review provides the following information related to TEFA transport: (1) the mechanisms of FA uptake by the heart, including TEFA transport; (2) the molecular mechanisms underlying the induction of genes associated with TEFA transport; (3) in vivo cardiac metabolism and contractile function in mice with reduced TEFA transport under unstressed conditions; and (4) in vivo contractile dysfunction in mice with reduced TEFA transport under diseased conditions, including an increased afterload and streptozotocin-induced diabetes.

Published

2021

5. Lung morphometry: the link between structure and function.

Author

Weibel, Ewald

Subjects

*LUNG anatomy, *ALVEOLITIS, *AEROBIC capacity, *MORPHOMETRICS, *OXYGEN consumption

Abstract

The study of the structural basis of gas exchange function in the lung depends on the availability of quantitative information that concerns the structures establishing contact between the air in the alveoli and the blood in the alveolar capillaries, which can be entered into physiological equations for predicting oxygen uptake. This information is provided by morphometric studies involving stereological methods and allows estimates of the pulmonary diffusing capacity of the human lung that agree, in experimental studies, with the maximal oxygen consumption. The basis for this 'machine lung' structure lies in the complex design of the cells building an extensive air-blood barrier with minimal cell mass. [ABSTRACT FROM AUTHOR]

Published

2017

6. Organ-Specific Endothelial Cell Differentiation and Impact of Microenvironmental Cues on Endothelial Heterogeneity

Subjects

organ-specific signature, SINUSOIDAL ENDOTHELIUM, BLOOD, extracellular matrix, RAT-LIVER, RECEPTOR TYROSINE KINASE, mechanobiology, microenvironment, vascular development, FLUID SHEAR-STRESS, PHENOTYPIC HETEROGENEITY, phenotypic drift, BARRIER FUNCTION, endothelial cell, EXTRACELLULAR-MATRIX, CAPILLARY ENDOTHELIUM, heterogeneity, DRUG-DELIVERY

Abstract

Endothelial cells throughout the body are heterogeneous, and this is tightly linked to the specific functions of organs and tissues. Heterogeneity is already determined from development onwards and ranges from arterial/venous specification to microvascular fate determination in organ-specific differentiation. Acknowledging the different phenotypes of endothelial cells and the implications of this diversity is key for the development of more specialized tissue engineering and vascular repair approaches. However, although novel technologies in transcriptomics and proteomics are facilitating the unraveling of vascular bed-specific endothelial cell signatures, still much research is based on the use of insufficiently specialized endothelial cells. Endothelial cells are not only heterogeneous, but their specialized phenotypes are also dynamic and adapt to changes in their microenvironment. During the last decades, strong collaborations between molecular biology, mechanobiology, and computational disciplines have led to a better understanding of how endothelial cells are modulated by their mechanical and biochemical contexts. Yet, because of the use of insufficiently specialized endothelial cells, there is still a huge lack of knowledge in how tissue-specific biomechanical factors determine organ-specific phenotypes. With this review, we want to put the focus on how organ-specific endothelial cell signatures are determined from development onwards and conditioned by their microenvironments during adulthood. We discuss the latest research performed on endothelial cells, pointing out the important implications of mimicking tissue-specific biomechanical cues in culture.

Published

2022

7. Computational Identification and 3D Morphological Characterization of Renal Glomeruli in Optically Cleared Murine Kidneys

Author

Nabil Nicolas, Nour Nicolas, and Etienne Roux

Subjects

Renal cortex, Kidney Glomerulus, TP1-1185, computer.software_genre, Kidney, urologic and male genital diseases, Biochemistry, Article, Analytical Chemistry, Mice, Imaging, Three-Dimensional, Voxel, 3D imaging, medicine, 3D morphological characterization, Animals, Statistical analysis, Electrical and Electronic Engineering, Instrumentation, light sheet microscopy, Microscopy, Chemistry, Chemical technology, Renal tissue, Open source software, Capillary Endothelium, Atomic and Molecular Physics, and Optics, Mice, Inbred C57BL, medicine.anatomical_structure, renal glomeruli, optical clearing, 3D image processing, computer, Tissue volume, Biomedical engineering, Clearance

Abstract

The aim of this study was to establish an accessible methodology for the objective identification and 3D morphological characterization of renal glomeruli in mice. 3D imaging of the renal cortex was performed by light sheet microscopy on iDISCO+ optical cleared kidneys of six C57BL/6J mice after labelling of the capillary endothelium by lectin injection. 3D images were processed with the open source software ImageJ, and statistical analysis done with GraphPad Prism. Non-visual delimitation of the external surface of the glomeruli was ensured by greyscale-based thresholding, the value of which was determined from the statistical analysis of the voxel frequency distribution. Exclusion of false-positive identification was done by successive volume- and shape-based segmentation. Renal glomeruli were characterized by their number, surface area, volume, and compactness. Average data were expressed as mean ± SD. The number of glomeruli was equal to 283 ± 35 per mm3 of renal tissue, representing 1.78 ± 0.49% of the tissue volume. The surface area, volume and compactness were equal to 20,830 ± 6200 µm², 62,280 ± 14,000 µm3 and 0.068 ± 0.026, respectively. The proposed standardized methodology allows the identification of the renal glomeruli and their 3D morphological characterization, and is easily accessible for biologists.

Published

2021

8. TRPV4 partially participates in proliferation of human brain capillary endothelial cells

Author

Hatano, Noriyuki, Suzuki, Hiroka, Itoh, Yuka, and Muraki, Katsuhiko

Subjects

*TRP channels, *ENDOTHELIAL cells, *CAPILLARIES, *BRAIN anatomy, *CELL proliferation, *BIOSENSORS

Abstract

Abstract: Aims: The vanilloid type 4 transient receptor potential channel (TRPV4) is a potential environmental sensor to multiple stimuli in many types of cells. In this study, we show that TRPV4 activated by 4α-phorbol 12,13-didecanoate (4αPDD) and hypo-osmotic stimulation (HOS) is a regulator of intracellular calcium ([Ca2+]i) in human brain capillary endothelial cells (HBCEs), and its activation can partially regulate cell proliferation of HBCEs. Main methods: The expression of TRPV4 in HBCEs was analyzed at the mRNA and protein levels. The function of TRPV4 in HBCEs was evaluated using a TRPV4 agonist, 4αPDD, and HOS while measuring [Ca2+]i and membrane currents. Key findings: Analysis of the mRNA transcripts of the TRPV subfamily revealed that TRPV2 and TRPV4 were expressed in HBCEs. Immunoreactivity to the TRPV4 protein was also detected in HBCEs, which were positively stained by von Willebrand factor and CD31. When 4αPDD was applied, [Ca2+]i in HBCEs was elevated in a concentration-dependent manner. In addition, exposure of HBCEs to HOS at 228mOsm induced an elevation of [Ca2+]i. Application of 4αPDD also activated non-selective cation currents (NSCCs). Pretreatment of HBCEs with short interference RNA targeting TRPV4 (siRNA) significantly reduced the 4αPDD-induced elevation of [Ca2+]i. When HBCEs were treated for 24h with concentrations of 4αPDD between 0.3 and 3μM, the cell proliferation was potentiated in a concentration-dependent manner. The potentiation was partially inhibited in HBCEs treated with siRNA. Significance: These data suggest that endogenous TRPV4, which functions as a regulator of [Ca2+]i in HBCEs, partially controls cell proliferation. [Copyright &y& Elsevier]

Published

2013

9. Three-Dimensional Analysis and Computer Modeling of the Capillary Endothelial Vesicular System with Electron Tomography.

Author

WAGNER, ROGER, MODLA, SHANNON, HOSSLER, FRED, and CZYMMEK, KIRK

Subjects

*TOMOGRAPHY, *MICROCIRCULATION, *TRANSMISSION electron microscopy, *TERBIUM, *VESICLES (Cytology), *BIOLOGICAL membranes

Abstract

Please cite this paper as: Wagner R, Modla S, Hossler F, Czymmek K. Three-dimensional analysis and computer modeling of the capillary endothelial vesicular system with electron tomography. Microcirculation 19: 477-484, 2012. Abstract Objective: We examined the three-dimensional organization of the endothelial vesicular system with TEM tomography of semi-thick sections. Materials and methods: Mouse abdominal muscle capillaries were perfused with terbium to label vesicular compartments open to the luminal surface. The tissue was prepared for TEM and semi-thick (250 nm) sections were cut. Dual axis tilt series, collected from +60° to −60° at 1° increments, were acquired in regions of labeled abluminal caveolae. These tomograms were reconstructed and analyzed to reveal three-dimensional vesicular associations not evident in thin sections. Results: Reconstructed tomograms revealed free vesicles, both labeled and unlabeled, in the endothelial cytoplasm as well as transendothelial channels that spanned the luminal and abluminal membranes. A large membranous compartment connecting the luminal and abluminal surfaces was also present. Computer modeling of tomographic data and video animations provided three-dimensional perspectives to these structures. Conclusions: Uncertainties associated with other three-dimensional methods to study the capillary wall are remedied by tomographic analysis of semi-thick sections. Transendothelial channels of fused vesicles and free cytoplasmic vesicles give credence to their role as large pores in the transport of solutes across the walls of continuous capillaries. [ABSTRACT FROM AUTHOR]

Published

2012

10. Time Course of Hyperosmolar Opening of the Blood-Brain and Blood-CSF Barriers in Spontaneously Hypertensive Rats.

Author

Al-Sarraf, Hameed, Ghaaedi, Firuz, and Redzic, Zoran

Subjects

*HYPERTENSION, *BRAIN blood-vessels, *ELECTRON microscopy, *TIGHT junctions, *DIFFUSION, *CEREBRAL ventricles

Abstract

The time course of blood-brain barrier (BBB) and blood-CSF barrier (BCSFB) responses to hyperosmolar mannitol infusion (HMI; 1.6 M) during chronic hypertension was investigated using 14C-sucrose as a marker of barrier integrity. 14C-sucrose entry into CSF of both spontaneously hypertensive rats (SHR) and normotensive Wistar Kyoto (WKY) rats 2 min after HMI increased ∼7-fold compared to their respective control. The volume of distribution (Vd) of 14C-sucrose into brain cortex of SHR increased 13-fold 2 min after HMI while that in WKY rats increased only 4-fold. After HMI Vd of 14C-sucrose into the cortex of WKY, and CSF of both SHR and WKY remained steadily greater than their corresponding control for up to 30 min (p < 0.01), whereas in the cortex of SHR the Vd of 14C-sucrose reached control values 20 min after HMI (p > 0.05), indicating that after HMI the increase in paracellular diffusion of 14C-sucrose into SHR cortex was not persistent, in contrast to WKY rats and CSF of both SHR and WKY rats. Electron microscopy of the brain cortex after HMI showed capillary endothelial cell shrinkage and perivascular swellings in the brain cortex, and in the choroid plexus opening of tight junctions were observed. Our results indicate disruption of both the BBB and the BCSFB after HMI in both SHR and WKY rats. The disruption remained persistent up to 25 min after HMI at the BBB of WKY rats and BCSFB in both animal groups, while in SHR the protective function of the BBB returned to control values 20 min after HMI. Copyright © 2007 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2007

11. CD300 antigen like family member G: A novel Ig receptor like protein exclusively expressed on capillary endothelium

Author

Takatsu, Hiroyuki, Hase, Koji, Ohmae, Masumi, Ohshima, Sayaka, Hashimoto, Koji, Taniura, Naoko, Yamamoto, Akitsugu, and Ohno, Hiroshi

Subjects

*ANTIGENS, *ENDOTHELIUM, *PROTEIN analysis, *AMINO acids

Abstract

Abstract: We report the characteristics of CD300LG, a member of the CD300 antigen like family. Its genomic structure is similar in both mouse and human, and at least four isoforms exist in both species. The amino acid sequence of the immunoglobulin (Ig) V like domain of CD300LG showed approximately 35% identity to those of the polymeric Ig receptor (pIgR) and Fcα/μR. Interestingly, mouse CD300LG proteins were uniquely expressed on capillary endothelium. Immunoelectron microscopy revealed that mouse CD300LG is localized on both apical and basolateral plasma membranes, as well as on intracellular vesicular structures, in the capillary endothelium. Transcytosis assays using polarized MDCK epithelial cells showed that CD300LG could be transcytosed bidirectionally. Furthermore, CD300LG exogenously expressed on HeLa cells could take up IgA2 and IgM, but not IgG. These results suggest that CD300LG might play an important role in molecular traffic across the capillary endothelium. [Copyright &y& Elsevier]

Published

2006

12. Aquaporin-1 plays an essential role in water permeability and ultrafiltration during peritoneal dialysis.

Author

Ni, J., Verbavatz, J.-M., Rippe, A., Boisdé, I., Moulin, P., Rippe, B., Verkman, A. S., and Devuyst, O.

Subjects

*AQUAPORINS, *MEMBRANE proteins, *PORE water, *CARRIER proteins, *BIOLOGICAL transport, *BODY fluid flow, *ULTRAFILTRATION, *PERITONEAL dialysis

Abstract

The water channel aquaporin-1 (AQP1) is considered as the molecular counterpart of the ultrasmall pore predicted by the three-pore model of fluid transport across the peritoneal membrane. However, the definitive proof of the implication of AQP1 in solute-free water transport, sodium sieving, and ultrafiltration (UF) during peritoneal dialysis (PD) is lacking, and the effects of its deletion on the structure of the membrane are unknown. Using real-time reverse transcriptase-polymerase chain reaction and immunogold electron microscopy, we showed that AQP1 is the most abundant member of the AQP gene family expressed in the mouse peritoneum, and the only one located in the capillary endothelium. Transport studies during a 2-h dwell demonstrated that, in comparison with Aqp1+/+ littermates, Aqp1−/− mice had no sodium sieving; an ∼70% decrease in the initial, solute-free UF; and an ∼50% decrease in cumulative UF. These modifications occurred despite unchanged osmotic gradient and transport of small solutes in the Aqp1−/− mice. Heterozygous Aqp1+/− mice showed intermediate values in sodium sieving and initial UF, whereas cumulative UF was similar to Aqp1+/+ mice. The deletion of AQP1 had no effect on the expression of other AQPs and on the density, structure, or diameter of peritoneal capillaries. These data provide direct evidence for the role of AQP1 during PD. They validate essential predictions of the three-pore model: (i) the ultrasmall pores account for the sodium sieving, and (ii) they mediate 50% of UF during a hypertonic dwell.Kidney International (2006) 69, 1518–1525. doi:10.1038/sj.ki.5000285; published online 1 March 2006 [ABSTRACT FROM AUTHOR]

Published

2006

13. Identification of temporal pattern of mandibular condylar growth: a molecular and biochemical experiment.

Author

Shen, G., Hägg, U., Rabie, A. B., and Kaluarachchi, K.

Subjects

MANDIBULAR condyle, COLLAGEN, EXTRACELLULAR matrix proteins, ENDOTHELIUM, RATS, JAWS

Abstract

Shen G, Hägg U, Rabie AB, Kaluarachchi K Based on the phenomenon that expression of type X collagen and capillary endothelium correlates with endochondral ossification, the prime aim of this study was to establish the temporal pattern of condylar growth in Sprague–Dawley rats by biochemically identifying the expression of these two factors. Sprague–Dawley rats were divided into five groups representing five different stages during somatic pubertal growth. In situ hybridization and immunoperoxidase were performed to examine expression of type X collagen in hypertrophic zone and capillary endothelium in erosive zone of condylar cartilage. Computer-assisted imaging analyses were conducted to allow for a quantitative assessment of the expression of these two factors, from which the temporal pattern of condylar growth was inferred. (1) Synthesis of type X collagen and emergence of capillary endothelium were critical factors during the transition of condylar cartilage from chondrogenesis into osteogenesis, a biological pathway that leads to endochondral bone formation, the mode through which the condyle grows. (2) Quantitative analyses revealed the temporal pattern of the expression of these two factors, indicating that the thrust of natural growth of the condyle in the rats occurred in concomitance with somatic pubertal growth, featured by an acceleration starting from day 38, a maximum growth rate on day 56, followed by a decrease afterwards. It is suggested that the biochemical examination of growth markers, such as type X collagen, might be a new approach to accurately depict temporal pattern of condylar growth which is too delicate to be reflected by gross measurement not only in Sprague–Dawley rats but potentially also in other species. [ABSTRACT FROM AUTHOR]

Published

2005

14. Plasmalemmal V-H+-ATPases regulate intracellular pH in human lung microvascular endothelial cells

Author

Rojas, José D., Sennoune, Souad R., Maiti, Debasish, Martínez, Gloria M., Bakunts, Karina, Wesson, Donald E., and Martínez-Zaguilán, Raul

Subjects

*ENDOTHELIUM, *CELL membranes, *IMMUNOCYTOCHEMISTRY, *FLUORESCENCE spectroscopy

Abstract

The lung endothelium layer is exposed to continuous CO2 transit which exposes the endothelium to a substantial acid load that could be detrimental to cell function. The Na+/H+ exchanger and HCO3--dependent H+-transporting mechanisms regulate intracellular pH (pHcyt) in most cells. Cells that cope with high acid loads might require additional primary energy-dependent mechanisms. V-H+-ATPases localized at the plasma membranes (pmV-ATPases) have emerged as a novel pH regulatory system. We hypothesized that human lung microvascular endothelial (HLMVE) cells use pmV-ATPases, in addition to Na+/H+ exchanger and HCO3--based H+-transporting mechanisms, to maintain pHcyt homeostasis. Immunocytochemical studies revealed V-H+-ATPase at the plasma membrane, in addition to the predicted distribution in vacuolar compartments. Acid-loaded HLMVE cells exhibited proton fluxes in the absence of Na+ and HCO3- that were similar to those observed in the presence of either Na+, or Na+ and HCO3-. The Na+- and HCO3--independent pHcyt recovery was inhibited by bafilomycin A1, a V-H+-ATPase inhibitor. These studies show a Na+- and HCO3--independent pHcyt regulatory mechanism in HLMVE cells that is mediated by pmV-ATPases. [Copyright &y& Elsevier]

Published

2004

15. Cloning, Expression, and Initial Characterization of a Novel Cytokine-like Gene Family

Author

Zhu, Yuan, Xu, Gang, Patel, Arun, McLaughlin, Megan M., Silverman, Carol, Knecht, Kristin A., Sweitzer, Sharon, Li, Xiaotong, McDonnell, Peter, Mirabile, Rosanna, Zimmerman, Dawn, Boyce, Rogely, Tierney, Lauren A., Hu, Erding, Livi, George P., Wolf, Bryan A., Abdel-Meguid, Sherin S., Rose, George D., Aurora, Rejeev, and Hensley, Preston

Subjects

*GENE expression, *MOLECULAR cloning, *CYTOKINES

Abstract

We report the identification and characterization of a novel cytokine-like gene family using structure-based methods to search for novel four-helix-bundle cytokines in genomics databases. There are four genes in this family, FAM3A, FAM3B, FAM3C, and FAM3D, each encoding a protein (224–235 amino acids) with a hydrophobic leader sequence. Northern analysis indicates that FAM3B is highly expressed in pancreas, FAM3D in placenta, and FAM3A and FAM3C in almost all tissues. Immunohistochemistry showed that FAM3A is expressed prominently in the vascular endothelium, particularly capillaries. We found that FAM3A and FAM3B protein were both localized to the islets of Langerhans of the endocrine pancreas. Recombinant FAM3B protein has delayed effects on β-cell function, inhibiting basal insulin secretion from a β-cell line in a dose-dependent manner. [Copyright &y& Elsevier]

Published

2002

16. Hyperhomocyst(e)inemia induces multiorgan damage.

Author

Miller, Amanda, Mujumdar, Vibhas, Shek, Eugene, Guillot, Jason, Angelo, Mike, Palmer, Lena, and Tyagi, S. C.

Abstract

Hyperhomocyst(e)inemia has been associated with the development of hypertension, stroke, and cardiovascular, cerebral/neuronal, renal, and liver diseases. To test the hypothesis that homocyst(e)ine plays an integrated role in multiorgan injury in hypertension, we employed: (1) spontaneously hypertensive rats (SHR) in which endogenous homocyst(e)ine levels are moderately high (18.1 ± 0.5 μM); (2) control age- and sex-matched Wistar Kyoto (WKY) rats in which homocyst(e)ine levels are normal (3.7 ± 0.3 μM). To create the pathophysiological condition of hyperhomocyst(e)inemia, 20 mg/day homocyst(e)ine was administered for 12 weeks in (3) SHR (SHR-H) and in (4) WKY (WKY-H) rats. (5) Endogenous homocyst(e)ine levels were reduced slightly but not significantly from 18.1 ± 0.5 μM to 12.5 ± 0.7 μM in SHR by folic acid administration (SHR-F). Plasma and tissue levels of homocyst(e)ine were determined by HPLC and spectrophotometric methods. Plasma and sympathetic ganglion (neuronal) matrix metalloproteinase (MMP) activity was measured by zymography. Activity of neuronal MMP was increased in hyperhomocyst(e)inemic rats as compared with controls. Mean arterial pressure (mmHg) was 95 ± 5, 126 ± 8, 157 ± 10, 188 ± 5, and 165 ± 12 in WKY, WKY-H, SHR, SHR-H, and SHR-F, respectively. Urinary protein (mg/day) was 0.11 ± 0.03, 0.88 ± 0.22, 0.47 ± 0.10, 0.89 ± 0.21, and 0.81 ± 0.21 in WKY, WKY-H, SHR, SHR-H, and SHR-F, respectively, as measured by the Bio-Rad dye binding assay. The relationships between increased arterial pressure, plasma homocyst(e)ine, and urinary protein were delineated. Plasma and neuronal creatinine phosphokinase (CK) isoenzymes were measured by agarose gel electrophoresis. All three CK isoenzymes, i.e., MM, MB, and BB, specific for skeletal, cardiac, and nerve tissue, respectively, were induced following 12 weeks' hyperhomocyst(e)inemia, suggesting multiorgan injury by homocyst(e)ine. Homocyst(e)ine induces endocardial endothelial cell (capillary) apoptosis and may reduce capillary cell density. Structural damage to aorta, myocardium, kidney, and renal-ureter was analyzed by histology. Results suggested an integrated physiological role of homocyst(e)ine in injury to the endothelial/epithelial cell lining in the respective organs. [ABSTRACT FROM AUTHOR]

Published

2000

17. Cardiac Metabolism and Contractile Function in Mice with Reduced Trans-Endothelial Fatty Acid Transport.

Author

Iso, Tatsuya and Kurabayashi, Masahiko

Subjects

HEART metabolism, FATTY acids, HEART, CARRIER proteins, MICE, ALTERNATIVE fuels, MONOCARBOXYLATE transporters

Abstract

The heart is a metabolic omnivore that combusts a considerable amount of energy substrates, mainly long-chain fatty acids (FAs) and others such as glucose, lactate, ketone bodies, and amino acids. There is emerging evidence that muscle-type continuous capillaries comprise the rate-limiting barrier that regulates FA uptake into cardiomyocytes. The transport of FAs across the capillary endothelium is composed of three major steps—the lipolysis of triglyceride on the luminal side of the endothelium, FA uptake by the plasma membrane, and intracellular FA transport by cytosolic proteins. In the heart, impaired trans-endothelial FA (TEFA) transport causes reduced FA uptake, with a compensatory increase in glucose use. In most cases, mice with reduced FA uptake exhibit preserved cardiac function under unstressed conditions. When the workload is increased, however, the total energy supply relative to its demand (estimated with pool size in the tricarboxylic acid (TCA) cycle) is significantly diminished, resulting in contractile dysfunction. The supplementation of alternative fuels, such as medium-chain FAs and ketone bodies, at least partially restores contractile dysfunction, indicating that energy insufficiency due to reduced FA supply is the predominant cause of cardiac dysfunction. Based on recent in vivo findings, this review provides the following information related to TEFA transport: (1) the mechanisms of FA uptake by the heart, including TEFA transport; (2) the molecular mechanisms underlying the induction of genes associated with TEFA transport; (3) in vivo cardiac metabolism and contractile function in mice with reduced TEFA transport under unstressed conditions; and (4) in vivo contractile dysfunction in mice with reduced TEFA transport under diseased conditions, including an increased afterload and streptozotocin-induced diabetes. [ABSTRACT FROM AUTHOR]

Published

2021

18. Ultrastructural demonstration of endothelial glycocalyx disruption in the reperfused rat heart. Involvement of oxygen free radicals.

Author

Czarnowska, E. and Karwatowska-Prokopczuk, E.

Abstract

To dermine the effect of post-ischaemic reperfusion on the ultrastructure of the endothelial glycocalyx and the role of oxygen free radicals, isolated working rat hearts were subjected to 20 min ischaemia followed by 3 or 30 min of reperfusion. Ruthenium red and lanthanum chloride were used to delineate the endothelial glycocalyx, and histochemical manganese/diaminobenzidine (Mn/DAB) or iron/diaminobenzidine (Fe/DAB) techniques were applied to visualize superoxide and hydrogen peroxide in myocardial capillaries. We found that ischaemia alone led to only a slightly flocculent appearance of the glycocalyx and its disruption was not observed until the onset of reperfusion. Prolongation of reperfusion to 30 min had no further effect on the ultrastructure of the glycocalyx. The ultrastructure of endothelial cells was normal. The disruption of the glycocalyx correlated in time and place with the appearance of Mn/DAB and Fe/DAB reaction products on the luminal surface of endothelial cells. Treatment with 5 mM N-(2-mercaptopropionyl)-glycine (MPG), an ·OH radical scavenger, starting before ischaemia prevented the disruption of the glycocalyx, while 100 mM 3-morpholinosydnonimine (SIN-1), capable of generating both NO andO simultaneously when applied at the time of reperfusion, increased the mean density of capillaries positively stained with Mn/DAB and Fe/DAB, and caused substantial disruption of the glycocalyx and damage to endothelial cells, which was not prevented by MPG. Our results suggest that the onset of reperfusion is critical for injury to the endothelial glycocalyx. Most probably the hydroxyl radical derived from the Fenton reactionis responsible for this injury. Peroxynitrite and/or nitric dioxide, if present upon reperfusion, may also account for damage of the endothelial. glycocalyx. [ABSTRACT FROM AUTHOR]

Published

1995

19. The fine structure of the cochlear plexus.

Author

Jahnke, Klaus

Abstract

Copyright of Archives of Oto-rhino-laryngology is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

1980

20. Rapid formation of capillary endothelial cells in rat skeletal muscle after exposure to insulin.

Author

HolmÄng, A., Jennische, E., and Björntorp, P.

Abstract

Research has suggested a role for insulin delivery through capillaries in muscle in the regulation of insulin sensitivity. Therefore, the formation and turn-over of capillary endothelial cells in muscle were studied in relation to exposure to moderately elevated insulin concentrations with or without concomitant increase of corticosterone concentrations. Female rats were exposed to a moderate, physiological hyperinsulinaemia (~ 450 pmol/l) for 24 h 48 h, 3 days, 7 days and 7 weeks. Propranolol was used to inhibit elevated adrenergic activity. In one insulin-exposed group, corticosterone secretion was controlled by adrenalectomy with substitution of corticosterone to maintain normal concentrations, while another group was left with adrenal corticosterone secretion intact. Rats were exposed to insulin with controlled, non-elevated corticosterone concentrations after adrenalectomy and corticosterone substitution; compared to controls, the number of mitoses in capillary endothelial cells in the soleus and extensor digitorum longus muscle were approximately doubled after 24 h, reaching a maximum, about fivefold higher than controls, after 3 days. After 7 weeks of insulin exposure there were no longer any significant differences between control and insulin-exposed rats. The number of capillaries per unit muscle surface area was moderately (10-15%) but significantly increased at 7 days (only the extensor digitorum longus muscle) and 7 weeks (the extensor digitorum longus and the soleus muscles). In rats exposed to insulin, with intact adrenals, endogenous corticosterone production resulted in concentrations about threefold higher than in rats adrenalectomized with subsequent corticosterone substitution. In these rats the increase in mitoses in capillary endothelium was totally abolished. The results of this study suggest that exposure to insulin in this rat model is followed by a dramatic short-term increase in the formation of new capillary endothelial cells in muscle. It is also suggested that this growth factor-like effect of insulin is abolished by corticosterone. It is suggested that insulin and corticosterone exert opposite effects on the capillary network in muscles, which might be important for the insulin supply to this tissue, and hence for regulation of insulin sensitivity. [ABSTRACT FROM AUTHOR]

Published

1996

21. Hypoxia induced disruption of the cardiac endothelial glycocalyx: implications for capillary permeability.

Author

Ward, Barbara J and Donnelly, John L

Abstract

Objective: The aim was to determine the effect of hypoxia on the ultrastructure of the endothelial glycocalyx of cardiac capillaries. Methods: Isolated rat hearts were perfused with oxygenated or hypoxic Krebs solution for 30 min after equilibration with oxygenated medium. They were then perfused with a cationic marker (ruthenium red, lanthanum nitrate, or cationised ferritin) to delineate the cardiac endothelial glycocalyx in the electron microscope. With ruthenium red and lanthanum, perfusions were carried out both in the presence and absence of bovine serum albumin. Ferritin perfused hearts were used to quantify changes in the glycocalyx as a result of hypoxia and to measure the cross sectional area of the endothelial cells. Results: In all the hearts perfused with well oxygenated solution, all three markers showed an even, electron dense layer on the luminal surface of the capillaries. With ruthenium red and lanthanum (but not with ferritin), the marker was occasionally observed throughout the length of the interendothelial clefts and on the albuminal surface. After 30 min hypoxic perfusion, both ruthenium red and lanthanum showed disruption and irregular clumping of the glycocalyx, with or without albumin. Ferritin, however, showed a sparse and uneven layer. Measurements of endothelial cell area showed that some cells from hypoxic hearts were swollen when compared with controls. Measurements of the percentage of luminal membrane covered by ferritin molecules showed a significant loss of glycocalyx in hypoxic hearts. There was, however, no correlation between loss of glycocalyx and endothelial cell swelling. Conclusions: The endothelial cell glycocalyx of continuous capillaries is sensitive to changes in Po2. The disruption of this surface coat may explain the reported increase in capillary permeability in hypoxia.Cardiovascular Research 1993;27:384-389 [ABSTRACT FROM PUBLISHER]

Published

1993

22. Modeling of palmitate transport in the heart.

Author

Bassingthwaighte, James, Noodleman, Louis, Vusse, Ger, and Glatz, Jan

Abstract

Transport of palmitate from the albumin-palmitate complex in the plasma to inside mitochondria where it undergoes β-oxidation is a multistep process. Albumin's large size prevents permeation via interendothelial clefts. Palmitate dissociation from albumin in solution is too slow to provide an adequate supply of the unbound palmitate. The discovery that the dissociation occurs upon albumin binding to an endothelial surface receptor resolves the conundrum. Palmitate transport across the luminal surface membrane may be either carrier-mediated or passive. Fatty-acid binding protein inside endothelial and cardiac muscle cells facilitates diffusion through cytosol while maintaining the unbound palmitate concentration at a very low level. Within the interstitium, albumin is again the palmitate carrier. Still controversial is whether or not there is a saturable sarcolemmal transporter or simply passive exchange. Inside the myocyte palmitate is again bound to the fatty acid binding protein which buffers the free palmitate concentration, facilitates diffusion, and may facilitate further intracellular reactions. [ABSTRACT FROM AUTHOR]

Published

1989

23. Freeze-fracture of capillary endothelium in rat brain.

Author

Tani, Eiichi, Yamagata, Shogo, and Ito, Yuko

Abstract

The rat brain capillary was studied with freeze-fracture technique. The attached plasmalemmal vesicles were quite few in number on the luminal front and sometimes numerous on the contraluminal side. The fracture appearance of some tight junctions showed interconnecting ridges on face A and complementary furrows devoid of particles on face B, comparable to the common tight junction in the normal epithelia. Other tight junctions revealed a preferential disposition of quasicontinuous rows of particles on shallow furrows of face B, resembling the tight junctional strands of capillary endothelium in non-cerebral tissues. Either behavior is probably due to the difference in the fracture plane around the single fibril. In addition, the tight junctional strand could surround the perimeter of the endothelial cell completely although the exposed strand of tight junction was limited in length. [ABSTRACT FROM AUTHOR]

Published

1977

24. Electron microscopic observations on extraneuronal lipofuscin in the monkey brain.

Author

El-Ghazzawi, Ebtihag and Malaty, H.

Abstract

Ultrastructure of osmiophilic bodies identified as lipofuscin granules occurring at extraneuronal sites in the brain tissue of both young and old monkeys was studied. The present work revealed that lipofuscin granules were detected normally in the neuroglia cells, phagocytic cells and pericytes surrounding the blood capillaries, as well as in the capillary endothelium. However, their presence in these sites was more marked in young animals. The findings presented in this report are strongly suggestive of the normal removal of lipofuscin from the nerve cells to the capillary endothelium, and suggest further that the phagocytic cells as well as the glia cells participate in this removal mechanism. Being a more active process during youth, few lipofuscin granules are present in neurones from young animals. Failure of the removal mechanism due to diminished activity of the participating cells with ageing, is probably the cause of lipofuscin accumulation in senescent neurones. [ABSTRACT FROM AUTHOR]

Published

1975

25. Retinal capillary junctions: Ultrastructural tight junction artefacts induced by sodium ions and membrane reduction in streptozotocin diabetes.

Author

Sosula, Leo

Abstract

Retinal capillary junctions were analysed in normal and diabetic rats and in a human retina with the electron microscope. Diabetes mellitus was induced with Streptozotocin. The retinae were fixed in Palade's osmium tetroxide containing sodium or calcium ions and block-stained in uranyl acetate. With Ca-fixation, no significant difference in interendothelial cleft width was detected between retinal layers or between normal and diabetic retinae. Diabetes caused a narrowing of the clefts in the Na-fixed tissue (X±SE, n=375; Normal: 78.6±3.00 Å; Diabetic: 57.7 ±2.42 Å; p≪0.001). A significant correlation was found between cleft width and the length of the tight junctions or zonulae occludentes (p<0.001). In the nerve fibre layer of the Nadiabetio retina, where cleft narrowing was greatest, there was an increase in length of the zonulae occludentes from 22.8±2.2% to 41.6±3.7% (p<0.001). Ca-fixation prevented these changes, indicating that at least some zonulae occludentes were interendothelial extraction artefacts. In the normal retina, endothelial cell membrane thickness was greater with Ca-than Na-fixation (p<0.001). Diabetes caused a decrease in membrane thickness of Ca-fixed tissue (p<0.001). The diabetic decrease in membrane thickness may explain the increased fragility and increased permeability of diabetic capillaries. Calcium binding by endothelial cell membranes is of primary importance in anticoagulation which is defective in diabetes. [ABSTRACT FROM AUTHOR]

Published

1975

26. Dissolution and removal of neuronal lipofuscin following dimethylaminoethyl p-chlorophenoxyacetate administration to guinea pigs.

Author

Hasan, Mahdi, Glees, Paul, and Spoerri, Polly

Abstract

Dimethylaminoethyl p-chlorophenoxy acetate (80 mg/kg body weight) was administered (i. m.) to guinea pigs for 30 to 56 days. Electron microscopic examination of the hippocampus, mid-brain reticular formation and the area postrema revealed marked diminution in the electron density of the pigment granules and vacuolization. This type of lipofuscin was detected in some phagocytic cells and in the capillary endothelium. Conspicuous vacuolization of the capillary wall was discernible. These changes were not observed in the 'control group' of animals. [ABSTRACT FROM AUTHOR]

Published

1974

27. Endocardial endothelium in the rat: junctional organization and permeability.

Author

Andries, L. and Brutsaert, D.

Abstract

Selective permeability of endocardial endothelium has been suggested as a mechanism underlying the modulation of the performance of subjacent myocardium. In this study, we characterized the organization and permeability of junctional complexes in ventricular endocardial endothelium in rat heart. The length of intercellular clefts viewed en face per unit endothelial cell surface area was lower, and intercellular clefts were deeper in endocardial endothelium than in myocardial vascular endothelium, whereas tight junctions had a similar structure in both endothelia. On this basis, endocardia endothelium. might be less permeable than capillary endothelium. However, confocal scanning laser microscopy showed that intravenously injected dextran 10000 coupled to Lucifer Yellow penetrated first the endocardial endothelium and later the myocardial capillary endothelium. Penetration of dextran 10000 in myocardium occurred earlier through subepicardial capillary endothelium than through subendocardial capillary endothelium. Penetration of tracer might thus be influenced by hydrostatic pressure. Dextran of MW 40000 did not diffuse through either endocardial endothelium or capilary endothelium. The ultrastructure of endocardial endothelium may constitute an adaptation to limit diffusion driven by high hydrostatic pressure in the heart. Differences in paracellular diffusion of dextran 10000 between endocardial endothelium and myocardial vessels, may result from differing permeability properties of the endocardium and underlying myocardium. [ABSTRACT FROM AUTHOR]

Published

1994

28. Cytochemical demonstration of an enzymatic production of hydrogen peroxide on the surface of isolated thyroid capillaries.

Author

Johansson, Bengt and Björkman, Ulla

Abstract

By means of a cytochemical technique, hydrogen peroxide formation was located on the endothelial cell surface (predominantly the luminal aspect) of capillaries obtained by collagenase digestion of rat thyroid. The cyanide-insensitive HO formation required aerobic conditions and NAD(P)H as substrate. FAD could also stimulate the reaction, but not xanthine. The cytochemical reaction was blocked by a non-penetrating protein inhibitor. The observations are interpreted as evidence of a plasmalemma-bound HO-generating enzyme. The findings indicate that microvascular endothelial cells are involved in the release of activated oxygen species, which might have important pathophysiologic implications. [ABSTRACT FROM AUTHOR]

Published

1983

29. TRPA1 channel: New kid in the 'neurovascular coupling' town.

Author

Sancho, Maria and Nelson, Mark T.

Abstract

The just-in time delivery of oxygen and nutrients to active brain regions to support function (functional hyperemia; FH) is mediated by not yet fully understood mechanisms collectively referred to as 'neurovascular coupling' (NVC). In a recent publication (eLife 2021) Thakore et al. provide profound mechanistic insight how the capillary endothelial transient receptor potential ankyrin 1 (TRPA1) channel contribute to blood flow control and functional hyperemia in the brain. [ABSTRACT FROM AUTHOR]

Published

2021

30. Ultrastructural Studies of Capillary Endothelium : Compartmental Tracing, High-Voltage Electron Microscopy, and Cryofixation

Author

Wagner, Roger C., Simionescu, Nicolae, editor, and Simionescu, Maya, editor

Published

1988

31. Effects of X-Irradiation on Guinea Pig Brain : An Electronmicroscopical and Histochemical Study

Author

Lierse, Werner, Franke, Herbert D., Klatzo, Igor, editor, and Seitelberger, Franz, editor

Published

1967

32. Association of smooth muscle cell tissue factor with caveolae

Subjects

EXPRESSION, FACTOR-X, LUMINAL SURFACE, PROCOAGULANT ACTIVITY, DIFFERENTIATED MICRODOMAINS, CAPILLARY ENDOTHELIUM, FACTOR-VIIA, BLOOD-COAGULATION, ANIONIC SITES, TUMOR-NECROSIS-FACTOR

Abstract

There is still no satisfactory explanation for the low catalytic activity of tissue factor (TF)/factor VII(a) complexes towards coagulation factor X, as found on the apical surface side of cell layers. It has been hypothesized that TF exists in a latent form. Layers of cultured human smooth muscle cells, constitutively expressing TF, were immunogold-labeled for TF in situ and processed for electron microscopy. We showed that, besides internalization and accumulation in lysosomal-like structures, TF remained associated with noncoated, flask-shaped microinvaginations of the plasma membrane. These invaginations were identified as caveolae. In regions in which intercellular contacts were interrupted, more TF-positive caveolae were observed. Enzymatically detached smooth muscle cells exhibited a similar enlargement of caveolar structures. Concomitantly, an increase of catalytic activity of apically formed TF/VIIa complexes towards factor X was found on the suspended cells. We speculate that caveolae-associated TF may function as a latent pool of procoagulant activity, which can rapidly be activated at sites in which vessel wall integrity is lost. (C) 1996 by The American Society of Hematology.

Published

1996

33. Biochemical and histochemical detection of the sialic acids in mammary tumours of bitches

Author

Seyrek, Kamil, Kıral, Funda Kargın, Musal, Bayazıt, Toplu, Nihat, Uludaǧ Üniversitesi/Veterinerlik Fakültesi/Doğum ve Jinekoloji Anabilim Dalı., Seyrek, Kamil İntaş, Keskin, Abdulkadir, and AAH-7292-2019

Subjects

Veterinary sciences, Serum, Adenoma, Identification, Lymphoid tissue, Carcinoma cell, Breast tumor, Expression, Capillary endothelium, Concentration response, Article, Epithelium cell, Metastasis, Binding site, Sambucus nigra, Dog, Histochemistry, Mammary tumour, Breast-cancer, Canidae, Myoepithelium cell, Tissue, Conjugation, Residues, Canis familiaris, Marker, Nonhuman, Immunohistochemistry, Sialic acid, Maackia amurensis, Spectrophotometry, Gene expression, Sialic acid derivative, Lectin, Sialic Acids, Glycoconjugates, Fucose

Abstract

This study describes the expression and localisation of sialic acid in mammary tumours in bitches. Tissue total sialic acid (TSA) concentrations were detected spectrophotometrically. Localisation of sialic acids in mammary tissue was visualised using the biotin-conjugated Sambucus nigra lectin (SNA), specific for alpha 2,6-linked sialic acid, and Maaickia amurensis lectin (MAL), specific for alpha 2,3-linked sialic acid. The mean value of tissue TSA of malignant tumours (1.46 +/- 0.14 mu mol/g protein) was significantly higher (p < 0,001) than that in healthy tissues (0.26 +/- 0.07 mu mol/g protein) as well as in tissues with benign types of tumour (0.50 +/- 0.06 mu mol/g protein). We could not find a significant difference in sialic acid concentrations between adenomas and normal tissue (p > 0.05). Tissue TSA content in the same type of tumours was not always equal. In histochemical analyses both the staining intensity and localisation patterns of SNA and MAL showed marked differences. The staining for SNA and MAL was only low or not present in normal mammary tissues but high in carcinomas. In malign tumours binding sites for SNA were predominantly in epithelial cells and in individual cells infiltrating the fibrous tissue. However, the binding sites for MAL were predominantly in fibrous tissue, capillary and lymphatic endothelia. Contrary to malignant tumours, a moderate staining was observed in benign tumours. The staining was mainly in epithelial cells, in fibrocytes and in myoepithelial cells. It was not always the case that the same type of tumours revealed the same staining intensity localisation for the lectins. The results obtained from the present study suggest that elevated levels of sialic acid in malignant mammary tumours may play an important role in the detachment of carcinoma cells from the primary tumour and would be of critical importance for the metastasis of turnout cells.

Published

2005

34. CD34+ cells home, proliferate, and participate in capillary formation, and in combination with CD34- cells enhance tube formation in a 3-dimensional matrix

Subjects

Biomedical Research, endothelium, Bone marrow cell, Cells, Cell Separation, Capillary endothelium, Cell population, Marker gene, Neural tube, Gene therapy, vascular type, Cell Movement, Vascular, Humans, CD34 antigen, Antigens, Physiologic, Biology, Cell proliferation, Neovascularization, Cultured, Nitric oxide, Cell Differentiation, Fetal Blood, Hematopoietic Stem Cells, Immunohistochemistry, Nerve sprouting, Coculture Techniques, Capillaries, Human cell, Peripheral vascular disease, Capillary proliferation, Biological Markers, Angiogenesis, Facilitation, CD34, Hhematopoietic stem cell, Neovascularization (pathology), Cell Division

Abstract

Objective - Emerging evidence suggests that human blood contains bone marrow (BM)-derived endothelial progenitor cells that contribute to postnatal neovascularization. Clinical trials demonstrated that administration of BM-cells can enhance neovascularization. Most studies, however, used crude cell populations. Identifying the role of different cell populations is important for developing improved cellular therapies. Methods and Results - Effects of the hematopoietic stem cell-containing CD34+ cell population on migration, proliferation, differentiation, stimulation of, and participation in capillary-like tubule formation were assessed in an in vitro 3-dimensional matrix model using human microvascular endothelial cells. During movement over the endothelial monolayer, CD34+ cells remained stuck at sites of capillary tube formation and time- and dose-dependently formed cell clusters. Immunohistochemistry confirmed homing and proliferation of CD34+ cells in and around capillary sprouts. CD34+ cells were transduced with the LNGFR marker gene to allow tracing. LNGFR gene-transduced CD34 + cells integrated in the tubular structures and stained positive for CD31 and UEA-1. CD34+ cells alone stimulated neovascularization by 17%. Coculture with CD34- cells led to 68% enhancement of neovascularization, whereas CD34- cells displayed a variable response by themselves. Cell-cell contact between CD34+ and CD34- cells facilitated endothelial differentiation of CD34+ cells. Conclusions - Our data suggest that administration of CD34+-enriched cell populations may significantly improve neovascularization and point at an important supportive role for (endogenous or exogenous) CD34- cells. © 2005 American Heart Association, Inc. Chemicals / CAS: nitric oxide, 10102-43-9; Antigens, CD34; Biological Markers

Published

2005

35. Association of smooth muscle cell tissue factor with caveolae

Author

Mulder, AB, Smit, JW, Bom, VJJ, Blom, NR, Ruiters, MHJ, Halie, MR, vanderMeer, J, Vascular Ageing Programme (VAP), and Restoring Organ Function by Means of Regenerative Medicine (REGENERATE)

Subjects

EXPRESSION, FACTOR-X, LUMINAL SURFACE, PROCOAGULANT ACTIVITY, DIFFERENTIATED MICRODOMAINS, CAPILLARY ENDOTHELIUM, FACTOR-VIIA, BLOOD-COAGULATION, ANIONIC SITES, TUMOR-NECROSIS-FACTOR

Abstract

There is still no satisfactory explanation for the low catalytic activity of tissue factor (TF)/factor VII(a) complexes towards coagulation factor X, as found on the apical surface side of cell layers. It has been hypothesized that TF exists in a latent form. Layers of cultured human smooth muscle cells, constitutively expressing TF, were immunogold-labeled for TF in situ and processed for electron microscopy. We showed that, besides internalization and accumulation in lysosomal-like structures, TF remained associated with noncoated, flask-shaped microinvaginations of the plasma membrane. These invaginations were identified as caveolae. In regions in which intercellular contacts were interrupted, more TF-positive caveolae were observed. Enzymatically detached smooth muscle cells exhibited a similar enlargement of caveolar structures. Concomitantly, an increase of catalytic activity of apically formed TF/VIIa complexes towards factor X was found on the suspended cells. We speculate that caveolae-associated TF may function as a latent pool of procoagulant activity, which can rapidly be activated at sites in which vessel wall integrity is lost. (C) 1996 by The American Society of Hematology.

Published

1996

36. Selective destruction of the outer leaflet of the capillary endothelial membrane after intracerebral injection of arachidonic acid in the rat

Author

Wakai, S., Aritake, K., Asano, T., and Takakura, K.

Published

1982

37. Aquaporin-1 plays an essential role in water permeability and ultrafiltration during peritoneal dialysis

Author

Jian Ni, Bengt Rippe, Alan S. Verkman, Isabelle Boisdé, Anna Rippe, Jean-Marc Verbavatz, Olivier Devuyst, and Pierre Moulin

Subjects

Cell Membrane Permeability, Sodium, chemistry.chemical_element, Gene Expression, Hemodiafiltration, capillary endothelium, Mice, Peritoneum, Body Water, medicine, Animals, three-pore model, Water transport, Aquaporin 1, Chemistry, Cell Membrane, Biological Transport, Immunogold labelling, water channel, Fluid transport, Capillaries, Membrane, medicine.anatomical_structure, Biochemistry, sodium sieving, Nephrology, Biophysics, Tonicity, Endothelium, Vascular, Peritoneal Dialysis, Biomarkers, Gene Deletion

Abstract

The water channel aquaporin-1 (AQP1) is considered as the molecular counterpart of the ultrasmall pore predicted by the three-pore model of fluid transport across the peritoneal membrane. However, the definitive proof of the implication of AQP1 in solute-free water transport, sodium sieving, and ultrafiltration (UF) during peritoneal dialysis (PD) is lacking, and the effects of its deletion on the structure of the membrane are unknown. Using real-time reverse transcriptase-polymerase chain reaction and immunogold electron microscopy, we showed that AQP1 is the most abundant member of the AQP gene family expressed in the mouse peritoneum, and the only one located in the capillary endothelium. Transport studies during a 2-h dwell demonstrated that, in comparison with Aqp1(+/+) littermates, Aqp1(-/-) mice had no sodium sieving; an approximately 70% decrease in the initial, solute-free UF; and an approximately 50% decrease in cumulative UF. These modifications occurred despite unchanged osmotic gradient and transport of small solutes in the Aqp1(-/-) mice. Heterozygous Aqp1(+/-) mice showed intermediate values in sodium sieving and initial UF, whereas cumulative UF was similar to Aqp1(+/+) mice. The deletion of AQP1 had no effect on the expression of other AQPs and on the density, structure, or diameter of peritoneal capillaries. These data provide direct evidence for the role of AQP1 during PD. They validate essential predictions of the three-pore model: (i) the ultrasmall pores account for the sodium sieving, and (ii) they mediate 50% of UF during a hypertonic dwell.

38. Morphological analysis of the functional state of the vascular endothelium in hypokinesia

Author

Savik, Z. F. and Cherkai, A. D.

Published

1974

39. Intermediate filaments in lung macrophages and endothelial cells in patients with chronic alcoholism and suppurative destructive lung diseases

Author

Serov, V. V., Lebedev, S. P., Vinogradova, L. G., Mukhin, A. S., and Sukhova, G. K.

Published

1982

40. Blood--Brain Barrier Sodium/Potassium Pump: Modulation by Central Noradrenergic Innervation

Author

Harik, Sami I.

Published

1986

41. Identification and Characterization of the Glucose Transporter of the Blood-Brain Barrier by Cytochalasin B Binding and Immunological Reactivity

Author

Harik, Sami I., Klip, Amira, and Walker, Denise M.

Published

1984

42. Pituitary Follicular Cells Secrete an Inhibitor of Aortic Endothelial Cell Growth: Identification as Leukemia Inhibitory Factor

Author

Ferrara, Napoleone, Winer, Jane, and Henzel, William J.

Published

1992

43. Adhesion and Incorporation of lacZ-Transduced Endothelial Cells into the Intact Capillary Wall in the Rat

Author

Messina, Louis M., Podrazik, Rachel M., Whitehill, Thomas A., Ekhterae, Daryoush, Brothers, Thomas E., Wilson, James M., Burkel, William E., and Stanley, James C.

Published

1992