Nobuyo Higashi scite author profile

Synoviolin, also called HRD1, is an E3 ubiquitin ligase and is implicated in endoplasmic reticulum -associated degradation. In mammals, Synoviolin plays crucial roles in various physiological and pathological processes, including embryogenesis and the pathogenesis of arthropathy. However, little is known about the molecular mechanisms of Synoviolin in these actions. To clarify these issues, we analyzed the profile of protein expression in synoviolinnull cells. Here, we report that Synoviolin targets tumor suppressor gene p53 for ubiquitination. Synoviolin sequestrated and metabolized p53 in the cytoplasm and negatively regulated its cellular level and biological functions, including transcription, cell cycle regulation and apoptosis. Furthermore, these p53 regulatory functions of Synoviolin were irrelevant to other E3 ubiquitin ligases for p53, such as MDM2, Pirh2 and Cop1, which form autoregulatory feedback loops. Our results provide novel insights into p53 signaling mediated by Synoviolin.

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Distribution of vitamin A‐storing lipid droplets in hepatic stellate cells in liver lobules—A comparative study

Higashi

Senoo

2003

Anat. Rec.

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To investigate the storage mechanisms of vitamin A, we examined the liver of adult polar bears and arctic foxes, which physiologically store a large amount of vitamin A, by high-performance liquid chromatography (HPLC), transmission electron microscopy (TEM) morphometry, gold chloride staining, fluorescence microscopy for the detection of autofluorescence of vitamin A, staining with hematoxylin-eosin (H&E), Masson's trichrome, and Ishii and Ishii's silver impregnation. HPLC revealed that the polar bears and arctic foxes contained 1.8 -1.9 ϫ 10 4 nmol total retinol (retinol plus retinyl esters) per gram liver. In the arctic foxes, the composition of the retinyl esters was found to be 51.1% palmitate, 26.6% oleate, 15.4% stearate, and 7% linoleate. The hepatic stellate cells of the arctic animals were demonstrated by TEM to contain the bulk of the vitamin A-lipid droplets in their cytoplasm. The liver lobules of the arctic animals showed a zonal gradient in the storage of vitamin A. The gradient was expressed as a symmetric crescendo-decrescendo profile starting at the periportal zone, peaking at the middle zone, and sloping down toward the central zone in the liver lobule. The density (i.e., cell number per area) of hepatic stellate cells was essentially the same among the zones. The gradient and the composition of the retinyl esters in storing vitamin A were not changed by differences in the vitamin A amount in the livers. These results indicate that the heterogeneity of vitamin A-storage capacity in hepatic stellate cells of arctic foxes and polar bears is genetically determined. Anat Rec Part A 271A: 240 -248, 2003.

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Vitamin A storage in hepatic stellate cells in the regenerating rat liver: With special reference to zonal heterogeneity

et al. 2005

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Under physiological conditions, hepatic stellate cells (HSCs) within liver lobules store about 80% of the total body vitamin A in lipid droplets in their cytoplasm, and these cells show zonal heterogeneity in terms of vitamin A-storing capacity. Vitamin A is essential for the growth and differentiation of cells, and it is well known that liver cells including HSCs show a remarkable growth capacity after partial hepatectomy (PHx). However, the status of vitamin A storage in HSCs in the liver regeneration is not yet known. Therefore, we conducted the present study to examine vitamin A storage in these cells during liver regeneration. Morphometry at the electron microscopic level, fluorescence microscopy for vitamin A autofluorescence, and immunofluorescence microscopy for desmin and ␣-smooth muscle actin (␣-SMA) were performed on sections of liver from male Wistar strain rats at various times after the animal had been subjected to 70% PHx. The mean area of vitamin A-storing lipid droplets per HSC gradually decreased toward 3 days after PHx, and then returned to normal within 14 days after it. However, the heterogeneity of vitamin A-storing lipid droplet area per HSC within the hepatic lobule disappeared after PHx and did not return to normal by 14 days thereafter, even though the liver volume had returned to normal. These results suggest that HSCs alter their vitamin A-storing capacity during liver regeneration and that the recovery of vitamin A homeostasis requires a much longer time than that for liver volume.

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Vitamin A distribution and content in tissues of the lamprey, Lampetra japonica

et al. 2004

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Vitamin A (retinol and retinyl ester) distribution and content in tissues of a lamprey (Lampetra japonica) were analyzed by morphological methods, namely, gold chloride staining, fluorescence microscopy to detect specific vitamin A autofluorescence, and electron microscopy, as well as high-performance liquid chromatography (HPLC). Hepatic stellate cells showed an abundance of vitamin A stored in lipid droplets in their cytoplasm. Similar cells storing vitamin A were present in the intestine, kidney, gill, and heart in both female and male lampreys. Morphological data obtained by gold chloride staining method, fluorescence microscopy, transmission electron microscopy, and HPLC quantification of retinol were consistent. The highest level of total retinol measured by HPLC was found in the intestine. The second and third highest concentrations of vitamin A were found in the liver and the kidney, respectively. These vitamin A-storing cells were not epithelial cells, but mesoderm-derived cells. We propose as a hypothesis that these cells belong to the stellate cell system (family) that stores vitamin A and regulates homeostasis of the vitamin in the whole body in the lamprey. Fibroblastic cells in the skin and somatic muscle stored little vitamin A. These results indicate that there is difference in the vitamin A-storing capacity between the splanchnic and intermediate mesoderm-derived cells (stellate cells) and somatic and dorsal mesoderm-derived cells (fibroblasts) in the lamprey. Stellate cells derived from the splanchnic and intermediate mesoderm have high capacity and fibroblasts derived from the somatic and dorsal mesoderm have low capacity for the storage of vitamin A in the lamprey.

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Cell?cell junctions between mammalian (human and rat) hepatic stellate cells

et al. 2004

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To investigate intercellular junctions between mammalian hepatic stellate cells, we examined cultured human and rat hepatic stellate cells at the ultrastructural and molecular levels. Intercellular junctions between cultured human stellate cells, which developed irrespective of the type of culture substratum, were detected by transmission electron microscopy. On the basis of their characteristic ultrastructure, these junctions were identified in cultured human hepatic stellate cells as adherens junctions but not as tight junctions, desmosomes, or gap junctions. N-cadherin, alpha-catenin and beta-catenin, and p120ctn were detected by Western blotting in rat stellate cells as molecular components of the intercellular adhesive structures. Immunofluorescence for pan-cadherin, alpha-catenin, and beta-catenin were also detected in cultured human stellate cells. Moreover, pan-cadherin and beta-catenin were co-localized at the contact regions between the cultured human stellate cells. These data suggest that the junctional adhesion between the stellate cells can be formed both in vivo and in vitro. Thus, hepatic stellate cells may participate in the structural organization of the cells in liver lobules through the formation of intercellular adherens junctions. This is the first description of the presence of cell-cell junctions between hepatic stellate cells in mammals at the fine structural and molecular levels.

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Nobuyo Higashi

Cytoplasmic destruction of p53 by the endoplasmic reticulum-resident ubiquitin ligase ‘Synoviolin’

Distribution of vitamin A‐storing lipid droplets in hepatic stellate cells in liver lobules—A comparative study

Vitamin A storage in hepatic stellate cells in the regenerating rat liver: With special reference to zonal heterogeneity

Vitamin A distribution and content in tissues of the lamprey, Lampetra japonica

Cell?cell junctions between mammalian (human and rat) hepatic stellate cells

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