Seismicity changes prior to the <i>M</i><sub>s</sub>8.0 Wenchuan earthquake in Sichuan, China

Mechanical insults, such as stent implantation, can induce endothelial injury, vascular inflammation, and ultimately lead to vascular neointimal hyperplasia. Resolvin E1 (RvE1), derived from the ω3 fatty acid eicosapentaenoic acid, can facilitate the resolution of inflammation in many settings. We therefore aimed to determine if there was a role for RvE1 in preventing neointimal formation after arterial injury and to understand the underlying mechanisms. Vascular inflammation and neointimal hyperplasia were induced by wire injury in the femoral arteries of mice. Administration of exogenous RvE1 and endogenously generated RvE1 via dietary supplementation with eicosapentaenoic acid and aspirin markedly reduced vascular neointima formation in this model. Mechanistically, RvE1 was found to inhibit vascular neutrophil infiltration, promote macrophage polarization toward an M2-like phenotype, suppress T-cell trafficking by reducing RANTES secretion from vascular smooth muscle cells, and inhibit vascular smooth muscle cell migration. In summary, RvE1 demonstrated a protective role against vascular inflammation and remodeling in response to mechanical injury, suggesting that it may serve as an adjuvant therapeutic agent for percutaneous coronary interventions, such as stent implantation.-Liu, G., Gong, Y., Zhang, R., Piao, L., Li, X., Liu, Q., Yan, S., Shen, Y., Guo, S., Zhu, M., Yin, H., Funk, C. D., Zhang, J., Yu, Y. Resolvin E1 attenuates injury-induced vascular neointimal formation by inhibition of inflammatory responses and vascular smooth muscle cell migration.

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A novel plasminogen activator inhibitor‐1 inhibitor, TM5441, protects against high‐fat diet‐induced obesity and adipocyte injury in mice

Piao

Jung

Huh

et al. 2016

British J Pharmacology

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Obesity is one of the most prevalent chronic diseases worldwide, and dysregulated adipocyte function plays an important role in obesity-associated metabolic disorder. The level of plasma plasminogen activator inhibitor-1 (PAI-1) is increased in obese subjects, and PAI-1 null mice show improved insulin sensitivity when subjected to high-fat and high-sucrose diet-induced metabolic stress, suggesting that a best-in-class PAI-1 inhibitor may become a novel therapeutic agent for obesity-associated metabolic syndrome. TM5441 is a novel orally active PAI-1 inhibitor that does not cause bleeding episodes. Hence, in the present study we examined the preventive effect of TM5441 on high-fat diet (HFD)-induced adipocyte dysfunction. EXPERIMENTAL APPROACHTen-week-old C57BL/6J mice were fed a normal diet (18% of total calories from fat) or HFD (60% of total calories from fat) for 10 weeks, and TM5441 (20 mg·kg À1 oral gavage) was administered daily with the initiation of HFD. KEY RESULTSTM5441 prevented HFD-induced body weight gain and systemic insulin resistance. TM5441 normalized HFD-induced dysregulated JNK and Akt phosphorylation, suggesting that it prevents the insulin resistance of adipocytes. TM5441 also attenuated the macrophage infiltration and increased expression of pro-inflammatory cytokines, such as inducible nitric oxide synthase, induced by the HFD. In addition, TM5441 prevented the HFD-induced down-regulation of genes involved in mitochondrial biogenesis and function, suggesting that it may prevent adipocyte inflammation and dysregulation by maintaining mitochondrial fitness. CONCLUSION AND IMPLICATIONSOur data suggest that TM5441 may become a novel therapeutic agent for obesity and obesity-related metabolic disorders.Abbreviations ATGL, adipose triglyceride lipase; Cox, cytochrome c oxidase; FAS, fatty acid synthase; FFA, free fatty acid; GTT, glucose tolerance test; H&E, haematoxylin and eosin; HFD, high-fat diet; HSL, hormone-sensitive lipase; iNOS, inducible nitric oxide synthase; ITT, insulin tolerance test; KO, knockout; MCP-1, monocyte chemotactic protein-1; mtDNA, mitochondrial DNA; ND, normal diet; PAI-1, plasminogen activator inhibitor-1; PGC1α, PPARγ coactivator-1α; Tfam, mitochondrial transcription factor A; TG, triglyceride; TM5275, 5-chloro-2- [({2-[4-(diphenylmethyl)piperazin-1-yl]-2-oxoethoxy}acetyl) amino]benzoate; TM5441, 5-chloro-2 {[(2-{[3-(furan-3-yl)phenyl]amino}-2-oxoethoxy) acethyl]amino} benzoic acid; UCP, uncoupling protein; WAT, white adipose tissue

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Endogenous catalase delays high-fat diet-induced liver injury in mice

Piao

Choi

Kwon

et al. 2017

Korean J Physiol Pharmacol

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Non-alcoholic fatty liver disease (NAFLD) has become the most prevalent liver disease in parallel with worldwide epidemic of obesity. Reactive oxygen species (ROS) contributes to the development and progression of NAFLD. Peroxisomes play an important role in fatty acid oxidation and ROS homeostasis, and catalase is an antioxidant exclusively expressed in peroxisome. The present study examined the role of endogenous catalase in early stage of NAFLD. 8-week-old male catalase knock-out (CKO) and age-matched C57BL/6J wild type (WT) mice were fed either a normal diet (ND: 18% of total calories from fat) or a high fat diet (HFD: 60% of total calories from fat) for 2 weeks. CKO mice gained body weight faster than WT mice at early period of HFD feeding. Plasma triglyceride and ALT, fasting plasma insulin, as well as liver lipid accumulation, inflammation (F4/80 staining), and oxidative stress (8-oxo-dG staining and nitrotyrosine level) were significantly increased in CKO but not in WT mice at 2 weeks of HFD feeding. While phosphorylation of Akt (Ser473) and PGC1α mRNA expression were decreased in both CKO and WT mice at HFD feeding, GSK3β phosphorylation and Cox4-il mRNA expression in the liver were decreased only in CKO-HF mice. Taken together, the present data demonstrated that endogenous catalase exerted beneficial effects in protecting liver injury including lipid accumulation and inflammation through maintaining liver redox balance from the early stage of HFD-induced metabolic stress.

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Aspirin enhances protective effect of fish oil against thrombosis and injury‐induced vascular remodelling

Gong

Lin

Piao

et al. 2015

British J Pharmacology

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Background and Purpose Although aspirin (acetylsalicylic acid) is commonly used to prevent ischaemic events in patients with coronary artery disease, many patients fail to respond to aspirin treatment. Dietary fish oil (FO), containing ω3 polyunsaturated fatty acids (PUFAs), has anti‐inflammatory and cardio‐protective properties, such as lowering cholesterol and modulating platelet activity. The objective of the present study was to investigate the potential additional effects of aspirin and FO on platelet activity and vascular response to injury. Experimental Approach Femoral arterial remodelling was induced by wire injury in mice. Platelet aggregation, and photochemical‐ and ferric chloride‐induced carotid artery thrombosis were employed to evaluate platelet function. Key Results FO treatment increased membrane ω3 PUFA incorporation, lowered plasma triglyceride and cholesterol levels, and reduced systolic BP in mice. FO or aspirin alone inhibited platelet aggregation; however, when combined, they exhibited synergistic suppression of platelet activity in mice, independent of COX‐1 inhibition. FO alone, but not aspirin, attenuated arterial neointimal growth in response to injury. Strikingly, a combination of FO and aspirin synergistically inhibited injury‐induced neointimal hyperplasia and reduced perivascular inflammatory reactions. Moreover, co‐administration of FO and aspirin decreased the expression of pro‐inflammatory cytokines and adhesion molecules in inflammatory cells. Consistently, a pro‐resolution lipid mediator‐Resolvin E1, was significantly elevated in plasma in FO/aspirin‐treated mice. Conclusions and Implications Co‐administration of FO and low‐dose aspirin may act synergistically to protect against thrombosis and injury‐induced vascular remodelling in mice. Our results support further investigation of adjuvant FO supplementation for patients with stable coronary artery disease. Linked Articles This article is part of a themed section on Chinese Innovation in Cardiovascular Drug Discovery. To view the other articles in this section visit http://dx.doi.org/10.1111/bph.2015.172.issue-23

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Novel Role of Endogenous Catalase in Macrophage Polarization in Adipose Tissue

Park

Uddin

Piao

et al. 2016

Mediators of Inflammation

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Macrophages are important components of adipose tissue inflammation, which results in metabolic diseases such as insulin resistance. Notably, obesity induces a proinflammatory phenotypic switch in adipose tissue macrophages, and oxidative stress facilitates this switch. Thus, we examined the role of endogenous catalase, a key regulator of oxidative stress, in the activity of adipose tissue macrophages in obese mice. Catalase knockout (CKO) exacerbated insulin resistance, amplified oxidative stress, and accelerated macrophage infiltration into epididymal white adipose tissue in mice on normal or high-fat diet. Interestingly, catalase deficiency also enhanced classical macrophage activation (M1) and inflammation but suppressed alternative activation (M2) regardless of diet. Similarly, pharmacological inhibition of catalase activity using 3-aminotriazole induced the same phenotypic switch and inflammatory response in RAW264.7 macrophages. Finally, the same phenotypic switch and inflammatory responses were observed in primary bone marrow-derived macrophages from CKO mice. Taken together, the data indicate that endogenous catalase regulates the polarization of adipose tissue macrophages and thereby inhibits inflammation and insulin resistance.

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Impaired Peroxisomal Fitness in Obese Mice, a Vicious Cycle Exacerbating Adipocyte Dysfunction via Oxidative Stress

Piao

Dorotea

Jiang

et al. 2019

Antioxidants & Redox Signaling

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Lingjuan Piao

EP3 receptor deficiency attenuates pulmonary hypertension through suppression of Rho/TGF-β1 signaling

Loss of DP1 Aggravates Vascular Remodeling in Pulmonary Arterial Hypertension via mTORC1 Signaling

Resolvin E1 attenuates inj ury‐induced vascular neointimal formation by inhibition of inflammatory responses and vascular smooth muscle cell migration

A novel plasminogen activator inhibitor‐1 inhibitor, TM5441, protects against high‐fat diet‐induced obesity and adipocyte injury in mice

Endogenous catalase delays high-fat diet-induced liver injury in mice

Aspirin enhances protective effect of fish oil against thrombosis and injury‐induced vascular remodelling

Novel Role of Endogenous Catalase in Macrophage Polarization in Adipose Tissue

Impaired Peroxisomal Fitness in Obese Mice, a Vicious Cycle Exacerbating Adipocyte Dysfunction via Oxidative Stress

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