Mariko Ogi scite author profile

Vascular endothelial growth factor (VEGF) is an important regulator of vasculogenesis and vascular permeability. Hepatic sinusoidal endothelial cells (SECs) possess sieve-like pores that form an anastomosing labyrinth structure by the deeply invaginated plasma membrane. Caveolin is the principal structural protein in caveolae. In this study, we examined the role of VEGF on the fenestration and permeability of SECs and the relation with caveolin-1. SECs isolated from rat livers by collagenase infusion method were cultured for 24 h with (10 or 100 ng/ml) or without VEGF. The cells were then examined by transmission and scanning electron microscopy (EM). The expression of caveolin was investigated by confocal immunofluorescence, immunogold EM, and Western blot. Endocytosis and intracellular traffic was studied using horseradish peroxidase (HRP) reaction as a marker of fluid phase transport in SECs. Both transmission and scanning EM showed an increased number of sinusoidal endothelial fenestrae (SEF) in SECs cultured with VEGF. By confocal immunofluorescence, SECs cultured with VEGF displayed prominent caveolin-l-positive aggregates in the cytoplasm, especially surrounding the nucleus region. Immunogold EM depicted increased caveolin-1 reactivity on vesicles and vacuoles of VEGF-treated SECs compared with VEGF-nontreated cells. However, there was no change in the level of caveolin-1 protein expression on Western blot. After HRP injection, an increase of electron-dense tracer filled the SEF in cells treated with VEGF. Our results suggested that VEGF induced fenestration in SECs, accompanied by an increased number of caveolae-like vesicles. Increased caveolin-1 might be associated with vesicle formation but not with fenestration. Increased fenestration may augment hepatic sinusoidal permeability and transendothelial transport.

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Distribution and localization of caveolin-1 in sinusoidal cells in rat liver

Ogi

Yokomori

Oda

et al. 2003

Medical Electron Microscopy

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Caveolin, the principal structural protein in caveolae, is involved in signal transduction. The aim of the present study was to clarify the distribution and ultrastructural localization of caveolin-1 in hepatic sinusoidal endothelial cells (SECs) and hepatic stellate cell (HSCs) by confocal microscopy and the electron immunogold method. Liver tissue sections were prepared from male Wistar rats. SECs and HSCs were isolated from rat livers by collagenase infusion. For immunohistochemistry, liver sections were reacted with anticaveolin-1 antibody. The localization and distribution of caveolin-1 were identified by confocal immunofluorescence. The ultrastructural localization of caveolin-1 on SECs and HSCs was identified by electron microscopy using the immunogold method. Immunohistochemical studies using liver tissues localized caveolin-1 in sinusoidal lining cells, bile canaliculi, portal vein, and hepatic artery. By confocal microscopy, caveolin-1 was mainly demonstrated at the Golgi complex in SECs and HSCs. Under an electron microscope, immunogold particles indicating the presence of caveolin-1 were demonstrated on the plasma membrane of sinusoidal endothelial fenestrae (SEF) and vesicles in SECs. Under an electron microscope, immunogold particles indicating the presence of caveolin-1 were demonstrated on the plasma membrane of caveolae and vesicles in HSCs. We concluded that caveolin-1 is localized from SEFs to the Golgi complex in SECs and from caveolae to the Golgi complex in HSCs.

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Enhanced expression of endothelial nitric oxide synthase and caveolin‐1 in human cirrhosis

Yokomori¹,

Oda

Ogi

et al. 2002

Liver

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Enhanced Expression of Endothelin B Receptor at Protein and Gene Levels in Human Cirrhotic Liver

Yokomori

Oda

Yasogawa

et al. 2001

The American Journal of Pathology

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Endothelin (ET) has been implicated in the regulation of hepatic microcirculation and development of portal hypertension. This study examined the localization of ETA receptor (ETAR) and ETB receptor (ETBR) in cirrhotic liver tissues from patients with hepatocellular carcinoma with hepatitis C-related cirrhosis, and normal liver samples from patients with metastatic liver carcinoma. Anti-ETAR and ETBR antibodies were used for immunohistochemistry and Western blot. Immunoelectron microscopy was conducted using immunoglobulin-gold and silver staining. For in situ hybridization (ISH), human ETAR and ETBR peptide nucleic acid probes were used with the catalyzed signal amplification system. In normal liver tissue, immunohistochemistry revealed that ETBR was predominantly expressed on hepatic sinusoidal lining cells, particularly on sinusoidal endothelial (SECs) and hepatic stellate cells (HSCs), and ETAR was scantily expressed. These findings were confirmed by Western blot and ISH. In cirrhotic liver tissue, overexpression of ETBR was demonstrated by Western blot and ISH. Morphometric analysis showed significant increase of ETBR expression on HSCs and SECs in cirrhotic liver, particularly on HSCs. ETAR expression was increased but remained low. Enhanced ETBR expression in cirrhosis may intensify the effect of endothelin on HSCs and increase hepatic microvascular tone.

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Mariko Ogi

Vascular endothelial growth factor increases fenestral permeability in hepatic sinusoidal endothelial cells

Distribution and localization of caveolin-1 in sinusoidal cells in rat liver

Enhanced expression of endothelial nitric oxide synthase and caveolin‐1 in human cirrhosis

Enhanced Expression of Endothelin B Receptor at Protein and Gene Levels in Human Cirrhotic Liver

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