Saet Byel Jung scite author profile

Oxidative functions of adipose tissue macrophages control the polarization of M1-like and M2-like phenotypes, but whether reduced macrophage oxidative function causes systemic insulin resistance in vivo is not clear. Here, we show that mice with reduced mitochondrial oxidative phosphorylation (OxPhos) due to myeloid-specific deletion of CR6-interacting factor 1 (Crif1), an essential mitoribosomal factor involved in biogenesis of OxPhos subunits, have M1-like polarization of macrophages and systemic insulin resistance with adipose inflammation. Macrophage GDF15 expression is reduced in mice with impaired oxidative function, but induced upon stimulation with rosiglitazone and IL-4. GDF15 upregulates the oxidative function of macrophages, leading to M2-like polarization, and reverses insulin resistance in ob/ob mice and HFD-fed mice with myeloid-specific deletion of Crif1. Thus, reduced macrophage oxidative function controls systemic insulin resistance and adipose inflammation, which can be reversed with GDF15 and leads to improved oxidative function of macrophages.

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Crif1 Deficiency Reduces Adipose OXPHOS Capacity and Triggers Inflammation and Insulin Resistance in Mice

Ryu

Kim

et al. 2013

PLoS Genet

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Impaired mitochondrial oxidative phosphorylation (OXPHOS) has been proposed as an etiological mechanism underlying insulin resistance. However, the initiating organ of OXPHOS dysfunction during the development of systemic insulin resistance has yet to be identified. To determine whether adipose OXPHOS deficiency plays an etiological role in systemic insulin resistance, the metabolic phenotype of mice with OXPHOS–deficient adipose tissue was examined. Crif1 is a protein required for the intramitochondrial production of mtDNA–encoded OXPHOS subunits; therefore, Crif1 haploinsufficient deficiency in mice results in a mild, but specific, failure of OXPHOS capacity in vivo. Although adipose-specific Crif1-haploinsufficient mice showed normal growth and development, they became insulin-resistant. Crif1-silenced adipocytes showed higher expression of chemokines, the expression of which is dependent upon stress kinases and antioxidant. Accordingly, examination of adipose tissue from Crif1-haploinsufficient mice revealed increased secretion of MCP1 and TNFα, as well as marked infiltration by macrophages. These findings indicate that the OXPHOS status of adipose tissue determines its metabolic and inflammatory responses, and may cause systemic inflammation and insulin resistance.

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p53 Impairs Endothelial Function by Transcriptionally Repressing Kruppel-Like Factor 2

Kumar

Kim

Hoffman

et al. 2011

ATVB

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Objective-To evaluate if p53 decreases Kruppel-Like Factor 2 (KLF2) expression and determine whether p53-mediated suppression of KLF2 plays a role in p53-induced endothelial dysfunction. Methods and Results-Endothelial KLF2 mediates endothelium-dependent vascular homeostasis by differentially regulating endothelial genes, leading to an anti-inflammatory and antithrombotic endothelial surface with normal vasodilatory function. In contrast, the tumor suppressor p53 leads to inflammatory gene expression and impairs endothelium-dependent vasodilatation, thus promoting endothelial dysfunction. The effect of p53 on KLF2 expression was determined. p53 inhibited KLF2 transcription in a histone deacetylase-dependent and a histone acetyltransferaseindependent fashion. KLF2 expression was suppressed by p53 via a conserved p53-binding repressor sequence in its promoter. p53 bound to, and stimulated, deacetylation of Histone H3 at the KLF2 promoter. The effect of p53 on endothelial KLF2 target genes was examined. Downregulation of p53 increased expression of endothelial NO synthase and thrombomodulin and inhibited expression of plasminogen activator inhibitor 1. Conversely, overexpression of p53 suppressed endothelial NO synthase and thrombomodulin expression and stimulated plasminogen activator inhibitor 1 and endothelin-1 expression. Knockdown of KLF2 abolished the p53-induced decrease in thrombomodulin and increase in endothelin-1. Both, overexpression of p53 and knockdown of KLF2 in endothelial cells increased blood coagulation on an endothelial cell monolayer. The p53-induced increase in coagulation was rescued by forced expression of KLF2. p53 also impaired endothelium-dependent vasodilatation and decreased bioavailable vascular NO, both of which were rescued by forced KLF2 expression. Conclusion-These findings illustrate a novel p53-dependent mechanism for the regulation of endothelial KLF2expression. In addition, they show that downregulation of KLF2, in part, mediates a p53-stimulated dysfunctional endothelium. (Arterioscler Thromb Vasc Biol. 2011;31:133-141.)Key Words: endothelial function Ⅲ endothelium Ⅲ gene expression Ⅲ NO synthase Ⅲ thrombosis Ⅲ vascular biology T he Kruppel-Like factor (KLF)/Sp is a subclass of the zinc finger family of DNA-binding transcriptional factors. There are 17 KLF Factors (KLF1-KLF17) and 4 Sp factors (S1-S4). These family members are characterized by DNA binding domains containing the conserved sequence CX2CX3FX5LX2HX3H (X is any amino acid; underlined cysteine and histidine residues coordinate zinc binding). 1 Members of this family can bind to the consensus DNA sequence CACCC. One member of this family, lung KLF/ KLF2, is highly expressed in vascular endothelium and serves as a molecular switch to regulate a range of endothelial functions. KLF2 expression in the endothelium is upregulated by laminar shear stress and inhibited by proinflammatory cytokines. 2,3 Forced expression of KLF2 in endothelial cells results in induction of endothelial-specific NO synthase (eNOS) and thrombomo...

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Mitohormesis in Hypothalamic POMC Neurons Mediates Regular Exercise-Induced High-Turnover Metabolism

et al. 2021

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Mitochondrial Oxidative Phosphorylation Reserve Is Required for Hormone- and PPARγ Agonist-Induced Adipogenesis

Ryu

Kim

Choi

et al. 2013

Molecules and Cells

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Adipocyte differentiation requires the coordinated activities of several nuclear transcription factors. Recently, mitochondria biogenesis was reported to occur during adipocyte differentiation and following treatment with thiazolidinediones in vitro and in vivo. Crif1 is a translational factor for mitochondrial DNA (mtDNA) and is important for transcription of the mitochondrial oxidative phosphorylation (OXPHOS) complex. To investigate the role of OXPHOS in adipogenesis, we analyzed adipocyte differentiation following disruption of Crif1 in vitro and in vivo. The adipose-specific Crif1 knockout mouse had a lower body weight and less fat mass than wild-type mice. Furthermore, adipocytes were smaller and had a dysplastic morphology in the adipose-specific Crif1 knockout mouse. 3T3-L1 adipocytes or adipose-derived stem cells (ADSCs) that lacked Crif1 expressed lower levels of mtDNA-encoded OXPHOS subunits, and adipocyte differentiation was disrupted. Rosiglitazone treatment did not induce adipogenesis or mitochondria biogenesis in Crif1 knockout ADSCs. These results show that mitochondrial OXPHOS and Crif1 are required for rosiglitazone- and hormone-induced adipogenesis.

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Differential regulation of interleukin-12 and tumour necrosis factor-α by phosphatidylinositol 3-kinase and ERK 1/2 pathways duringMycobacterium tuberculosisinfection

Yang

Lee

Jung

et al. 2005

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Biosynthesis of polyhydroxyalkanoate copolyester containing cyclohexyl groups by Pseudomonas oleovorans

Kim

Jung

Choi

et al. 2001

International Journal of Biological Macromolecules

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Saet Byel Jung

Growth differentiation factor 15 is a myomitokine governing systemic energy homeostasis

Reduced oxidative capacity in macrophages results in systemic insulin resistance

Crif1 Deficiency Reduces Adipose OXPHOS Capacity and Triggers Inflammation and Insulin Resistance in Mice

p53 Impairs Endothelial Function by Transcriptionally Repressing Kruppel-Like Factor 2

Mitohormesis in Hypothalamic POMC Neurons Mediates Regular Exercise-Induced High-Turnover Metabolism

Mitochondrial Oxidative Phosphorylation Reserve Is Required for Hormone- and PPARγ Agonist-Induced Adipogenesis

Differential regulation of interleukin-12 and tumour necrosis factor-α by phosphatidylinositol 3-kinase and ERK 1/2 pathways duringMycobacterium tuberculosisinfection

Biosynthesis of polyhydroxyalkanoate copolyester containing cyclohexyl groups by Pseudomonas oleovorans

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