Yuri Shimoda scite author profile

Members of the Foxo family, Foxo1 (Fkhr), Foxo3 (Fkhrl1), and Foxo4 (Afx), are mammalian homologs of daf-16, which influences life span and energy metabolism in Caenorhabditis elegans. Mammalian FOXO proteins also play important roles in cell cycle arrest, apoptosis, stress resistance, and energy metabolism. In this study, we generated Foxo1-deficient mice to investigate the physiological role of FOXO1. The Foxo1-deficient mice died around embryonic day 11 because of defects in the branchial arches and remarkably impaired vascular development of embryos and yolk sacs. In vitro differentiation of embryonic stem cells demonstrated that endothelial cells derived from wild-type and Foxo1-deficient embryonic stem cells were able to produce comparable numbers of colonies supported by a layer of OP9 stromal cells. Although the morphology of the endothelial cell colonies was identical in both genotypes in the absence of exogenous vascular endothelial growth factor (VEGF), Foxo1-deficient endothelial cells showed a markedly different morphological response compared with wild-type endothelial cells in the presence of exogenous VEGF. These results suggest that Foxo1 is essential to the ability of endothelial cells to respond properly to a high dose of VEGF, thereby playing a critical role in normal vascular development.

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Attenuation of obesity-induced adipose tissue inflammation in C3H/HeJ mice carrying a Toll-like receptor 4 mutation

Suganami¹,

Mieda²,

Ichii³

et al. 2007

Biochemical and Biophysical Research Communications

203

145

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Activating Transcription Factor 3 Constitutes a Negative Feedback Mechanism That Attenuates Saturated Fatty Acid/Toll-Like Receptor 4 Signaling and Macrophage Activation in Obese Adipose Tissue

Suganami

Yuan

Shimoda

et al. 2009

Circulation Research

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Abstract-Obese adipose tissue is markedly infiltrated by macrophages, suggesting that they may participate in the inflammatory pathways that are activated in obese adipose tissue. Evidence has suggested that saturated fatty acids released via adipocyte lipolysis serve as a naturally occurring ligand that stimulates Toll-like receptor (TLR)4 signaling, thereby inducing the inflammatory responses in macrophages in obese adipose tissue. Through a combination of cDNA microarray analyses of saturated fatty acid-stimulated macrophages in vitro and obese adipose tissue in vivo, here we identified activating transcription factor (ATF)3, a member of the ATF/cAMP response element-binding protein family of basic leucine zipper-type transcription factors, as a target gene of saturated fatty acids/TLR4 signaling in macrophages in obese adipose tissue. Importantly, ATF3, when induced by saturated fatty acids, can transcriptionally repress tumor necrosis factor-␣ production in macrophages in vitro. Chromatin immunoprecipitation assay revealed that ATF3 is recruited to the region containing the activator protein-1 site of the endogenous tumor necrosis factor-␣ promoter. Furthermore, transgenic overexpression of ATF3 specifically in macrophages results in the marked attenuation of proinflammatory M1 macrophage activation in the adipose tissue from genetically obese KKA y mice fed high-fat diet. This study provides evidence that ATF3, which is induced in obese adipose tissue, acts as a transcriptional repressor of saturated fatty acids/TLR4 signaling, thereby revealing the negative feedback mechanism that attenuates obesity-induced macrophage activation. Our data also suggest that activation of ATF3 in macrophages offers a novel therapeutic strategy to prevent or treat obesity-induced adipose tissue inflammation. (Circ Res. 2009;105:25-32.) Key Words: adipocytes Ⅲ ATF3 Ⅲ fatty acids Ⅲ inflammation Ⅲ macrophages Ⅲ TLR4 K nown as the metabolic syndrome, the cluster of wellestablished risk factors for cardiovascular disease (visceral fat obesity, impaired glucose metabolism, atherogenic dyslipidemia, and blood pressure elevation), is an increasing health problem worldwide. [1][2][3] The pathophysiology underlying the metabolic syndrome is not fully understood and visceral fat obesity appears to be an important component. 4 There is considerable evidence that obesity is a state of chronic low-grade inflammation, which may play a critical role in the pathophysiology of the metabolic syndrome. [1][2][3] Obese adipose tissue is markedly infiltrated by macrophages, suggesting that they may participate in the inflammatory pathways that are activated in obese adipose tissue. 5 Using an in vitro coculture system composed of adipocytes and macrophages, we have provided evidence that a paracrine loop involving saturated fatty acids and tumor necrosis factor (TNF)␣ derived from adipocytes and macrophages, respectively, establishes a vicious cycle that augment the inflammatory change in obese adipose tissue. 6 Recent studies have also poin...

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Increased Expression of Macrophage-Inducible C-type Lectin in Adipose Tissue of Obese Mice and Humans

Ichioka

Suganami

Tsuda

et al. 2011

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OBJECTIVEWe have provided evidence that saturated fatty acids, which are released from adipocytes via macrophage-induced adipocyte lipolysis, serve as a naturally occurring ligand for the Toll-like receptor (TLR) 4 complex in macrophages, thereby aggravating obesity-induced adipose tissue inflammation. The aim of this study was to identify the molecule(s) activated in adipose tissue macrophages in obesity.RESEARCH DESIGN AND METHODSWe performed a cDNA microarray analysis of coculture of 3T3-L1 adipocytes and RAW264 macrophages. Cultured adipocytes and macrophages and the adipose tissue of obese mice and humans were used to examine mRNA and protein expression.RESULTSWe found that macrophage-inducible C-type lectin (Mincle; also called Clec4e and Clecsf9), a type II transmembrane C-type lectin, is induced selectively in macrophages during the interaction between adipocytes and macrophages. Treatment with palmitate, a major saturated fatty acid released from 3T3-L1 adipocytes, induced Mincle mRNA expression in macrophages at least partly through the TLR4/nuclear factor (NF)-κB pathway. Mincle mRNA expression was increased in parallel with macrophage markers in the adipose tissue of obese mice and humans. The obesity-induced increase in Mincle mRNA expression was markedly attenuated in C3H/HeJ mice with defective TLR4 signaling relative to control C3H/HeN mice. Notably, Mincle mRNA was expressed in bone-marrow cell (BMC)-derived proinflammatory M1 macrophages rather than in BMC-derived anti-inflammatory M2 macrophages in vitro.CONCLUSIONSOur data suggest that Mincle is induced in adipose tissue macrophages in obesity at least partly through the saturated fatty acid/TLR4/NF-κB pathway, thereby suggesting its pathophysiologic role in obesity-induced adipose tissue inflammation.

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Distinct hemogenic potential of endothelial cells and CD41⁺ cells in mouse embryos

et al. 2007

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Definitive hematopoietic progenitor cells have been thought to develop from the vascular endothelium located in the aorta-gonad-mesonephros region of the mouse embryo. However, several recent findings have suggested that most hematopoietic progenitors are derived from non-endothelial precursor cells expressing CD41. We characterized two distinct precursor populations of definitive hematopoietic cell lineages, vascular endothelial (VE)-cadherin + CD41 -CD45 -endothelial cells and CD41 + CD45 -non-endothelial progenitors, both of which are derived from lateral mesoderm. VE-cadherin + endothelial cells obtained from cultures of differentiating embryonic stem cells possessed hematopoietic potential encompassing erythroid, myeloid and B lymphoid lineages, whereas CD41 + progenitors lacked the B lymphopoietic potential. VE-cadherin + endothelial cells in the lower trunk of the embryo proper showed a significant potential for initiating B lymphopoiesis in cultures, while endothelial cells in the yolk sac appeared to have a bias for myeloerythropoietic differentiation. CD41 + progenitors isolated from yolk sac and embryo proper were capable of generating multiple hematopoietic lineages, although mast cell precursors were exclusively enriched in CD41 + progenitors in the yolk sac. These results suggest that hemogenic endothelial cells and CD41 + progenitors possess distinct hematopoietic potential depending on the tissues in which they reside.

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Yuri Shimoda

Abnormal Angiogenesis in Foxo1 (Fkhr)-deficient Mice

Attenuation of obesity-induced adipose tissue inflammation in C3H/HeJ mice carrying a Toll-like receptor 4 mutation

Activating Transcription Factor 3 Constitutes a Negative Feedback Mechanism That Attenuates Saturated Fatty Acid/Toll-Like Receptor 4 Signaling and Macrophage Activation in Obese Adipose Tissue

Increased Expression of Macrophage-Inducible C-type Lectin in Adipose Tissue of Obese Mice and Humans

Distinct hemogenic potential of endothelial cells and CD41⁺ cells in mouse embryos

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Yuri Shimoda

Abnormal Angiogenesis in Foxo1 (Fkhr)-deficient Mice

Attenuation of obesity-induced adipose tissue inflammation in C3H/HeJ mice carrying a Toll-like receptor 4 mutation

Activating Transcription Factor 3 Constitutes a Negative Feedback Mechanism That Attenuates Saturated Fatty Acid/Toll-Like Receptor 4 Signaling and Macrophage Activation in Obese Adipose Tissue

Increased Expression of Macrophage-Inducible C-type Lectin in Adipose Tissue of Obese Mice and Humans

Distinct hemogenic potential of endothelial cells and CD41+ cells in mouse embryos

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Product

Resources

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Distinct hemogenic potential of endothelial cells and CD41⁺ cells in mouse embryos