Masahito Urawa scite author profile

Epithelial cell apoptosis is critical in the pathogenesis of idiopathic pulmonary fibrosis. Protein S, a circulating anticoagulant, inhibited apoptosis of lung epithelial cells. Overexpression of protein S in lung cells reduced bleomycin‐induced pulmonary fibrosis. Intranasal therapy with exogenous protein S ameliorated bleomycin‐induced pulmonary fibrosis. Summary BackgroundPulmonary fibrosis is the terminal stage of interstitial lung diseases, some of them being incurable and of unknown etiology. Apoptosis plays a critical role in lung fibrogenesis. Protein S is a plasma anticoagulant with potent antiapoptotic activity. The role of protein S in pulmonary fibrosis is unknown. ObjectivesTo evaluate the clinical relevance of protein S and its protective role in pulmonary fibrosis. Methods and ResultsThe circulating level of protein S was measured in patients with pulmonary fibrosis and controls by the use of enzyme immunoassays. Pulmonary fibrosis was induced with bleomycin in transgenic mice overexpressing human protein S and wild‐type mice, and exogenous protein S or vehicle was administered to wild‐type mice; fibrosis was then compared in both models. Patients with pulmonary fibrosis had reduced circulating levels of protein S as compared with controls. Inflammatory changes, the levels of profibrotic cytokines, fibrosis score, hydroxyproline content in the lungs and oxygen desaturation were significantly reduced in protein S‐transgenic mice as compared with wild‐type mice. Wild‐type mice treated with exogenous protein S showed significant decreases in the levels of inflammatory and profibrotic markers and fibrosis in the lungs as compared with untreated control mice. After bleomycin infusion, mice overexpressing human protein S showed significantly low caspase‐3 activity, enhanced expression of antiapoptotic molecules and enhanced Akt and Axl kinase phosphorylation as compared with wild‐type counterparts. Protein S also inhibited apoptosis of alveolar epithelial cells in vitro. ConclusionsThese observations suggest clinical relevance and a protective role of protein S in pulmonary fibrosis.

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Thrombomodulin inhibits the activation of eosinophils and mast cells

Roeen

Toda

D’Alessandro-Gabazza

et al. 2015

Cellular Immunology

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Amelioration of Atherosclerosis by the New Medicinal Mushroom Grifola gargal Singer

Harada

D’Alessandro-Gabazza

Toda

et al. 2015

Journal of Medicinal Food

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The beneficial effects of edible mushrooms for improving chronic intractable diseases have been documented. However, the antiatherogenic activity of the new medicinal mushroom Grifola gargal is unknown. Therefore, we evaluated whether Grifola gargal can prevent or delay the progression of atherosclerosis. Atherosclerosis was induced in ApoE lipoprotein-deficient mice by subcutaneous infusion of angiotensin II. Grifola gargal extract (GGE) was prepared and intraperitoneally injected. The weight of heart and vessels, dilatation/atheroma formation of thoracic and abdominal aorta, the percentage of peripheral granulocytes, and the blood concentration of MCP-1/CCL2 were significantly reduced in mice treated with GGE compared to untreated mice. By contrast, the percentage of regulatory T cells and the plasma concentration of SDF-1/CXCL12 were significantly increased in mice treated with the mushroom extract compared to untreated mice. In vitro, GGE significantly increased the secretion of SDF-1/CXCL12, VEGF, and TGF-b1 from fibroblasts compared to control. This study demonstrated for the first time that Grifola gargal therapy can enhance regulatory T cells and ameliorate atherosclerosis in mice.

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Activated protein C modulates the proinflammatory activity of dendritic cells

Μatsumoto¹,

Matsushima²,

Toda³

et al. 2015

JAA

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BackgroundPrevious studies have demonstrated the beneficial activity of activated protein C in allergic diseases including bronchial asthma and rhinitis. However, the exact mechanism of action of activated protein C in allergies is unclear. In this study, we hypothesized that pharmacological doses of activated protein C can modulate allergic inflammation by inhibiting dendritic cells.Materials and methodsDendritic cells were prepared using murine bone marrow progenitor cells and human peripheral monocytes. Bronchial asthma was induced in mice that received intratracheal instillation of ovalbumin-pulsed dendritic cells.ResultsActivated protein C significantly increased the differentiation of tolerogenic plasmacytoid dendritic cells and the secretion of type I interferons, but it significantly reduced lipopolysaccharide-mediated maturation and the secretion of inflammatory cytokines in myeloid dendritic cells. Activated protein C also inhibited maturation and the secretion of inflammatory cytokines in monocyte-derived dendritic cells. Activated protein C-treated dendritic cells were less effective when differentiating naïve CD4 T-cells from Th1 or Th2 cells, and the cellular effect of activated protein C was mediated by its receptors. Mice that received adoptive transfer of activated protein C-treated ovalbumin-pulsed dendritic cells had significantly less airway hyperresponsiveness, significantly decreased lung concentrations of Th1 and Th2 cytokines, and less plasma concentration of immunoglobulin E when compared to control mice.ConclusionThese results suggest that dendritic cells mediate the immunosuppressive effect of activated protein C during allergic inflammation.

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Masahito Urawa

Correlation between circulating fibrocytes, and activity and progression of interstitial lung diseases

Protein S is protective in pulmonary fibrosis

Thrombomodulin inhibits the activation of eosinophils and mast cells

Amelioration of Atherosclerosis by the New Medicinal Mushroom Grifola gargal Singer

Activated protein C modulates the proinflammatory activity of dendritic cells

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