27‐Hydroxycholesterol regulates human
            <i>SLC22A12</i>
            gene expression through estrogen receptor action

Matsubayashi, Masaya; Sakaguchi, Yoshihiko; Sahara, Yoshiki; Nanaura, Hitoki; Kikuchi, Satoru; Asghari, Arvand; Bui, Linh; Kobashigawa, Shinko; Nakanishi, Mari; Nagata, Riko; Matsui, Takeshi K.; Kashino, Genro; Hasegawa, Masatoshi; Takasawa, Shin; Eriguchi, Masahiro; Tsuruya, Kazuhiko; Nagamori, Shushi; Sugie, Kazuma; Nakagawa, Takahiko; Takasato, Minoru; Umetani, Michihisa; Mori, Eiichiro

doi:10.1096/fj.202002077r

Cited by 13 publications

(12 citation statements)

References 73 publications

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“…The previous study [ 9 , 37 ] as well as the present study suggested that tissue URAT1 action is enhanced in the insulin-resistant state, as represented by metabolic syndrome, presumably via persistent exposure to hyperinsulinemia. Conversely, the present study indicates that enhanced URAT1 action induces insulin resistance in metabolic syndrome, leading to a vicious cycle (see the Graphical Abstract).…”

Section: Discussionsupporting

confidence: 76%

URAT1-selective inhibition ameliorates insulin resistance by attenuating diet-induced hepatic steatosis and brown adipose tissue whitening in mice

Tanaka

Nagoshi

et al. 2022

Molecular Metabolism

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Objective Accumulating evidence indicates that high uric acid (UA) is strongly associated with obesity and metabolic syndrome and drives the development of nonalcoholic fatty liver disease (NAFLD) and insulin resistance. Although urate transporter-1 (URAT1), which is primarily expressed in the kidneys, plays a critical role in the development of hyperuricemia, its pathophysiological implication in NAFLD and insulin resistance remains unclear. We herein investigated the role and functional significance of URAT1 in diet-induced obese mice. Methods Mice fed a high-fat diet (HFD) for 16–18 weeks or a normal-fat diet (NFD) were treated with or without a novel oral URAT1-selective inhibitor (dotinurad [50 mg/kg/day]) for another 4 weeks. Results We found that URAT1 was also expressed in the liver and brown adipose tissue (BAT) other than the kidneys. Dotinurad administration significantly ameliorated HFD-induced obesity and insulin resistance. HFD markedly induced NAFLD, which was characterized by severe hepatic steatosis as well as the elevation of serum ALT activity and tissue inflammatory cytokine genes (chemokine ligand 2 (Ccl2) and tissue necrosis factor α (TNFα)), all of which were attenuated by dotinurad. Similarly, HFD significantly increased URAT1 expression in BAT, resulting in lipid accumulation (whitening of BAT), and increased the production of tissue reactive oxygen species (ROS), which were reduced by dotinurad via UCP1 activation. Conclusions In conclusion, a novel URAT1-selective inhibitor, dotinurad, ameliorates insulin resistance by attenuating hepatic steatosis and promoting rebrowning of lipid-rich BAT in HFD-induced obese mice. URAT1 serves as a key regulator of the pathophysiology of metabolic syndrome and may be a new therapeutic target for insulin-resistant individuals, particularly those with concomitant NAFLD.

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Section: Discussionsupporting

confidence: 76%

URAT1-selective inhibition ameliorates insulin resistance by attenuating diet-induced hepatic steatosis and brown adipose tissue whitening in mice

Tanaka

Nagoshi

et al. 2022

Molecular Metabolism

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“…In addition to the UA overproduction caused by dietary factors and subsequent activation of xanthine oxidase (XOD) in liver tissue, the impaired urate excretion also plays an important role in the development of HUA . Daily UA that generated and excreted in the human body is 600–700 mg, of which one-third is eliminated via the intestine and two-thirds by the kidney, respectively .…”

Section: Introductionmentioning

confidence: 99%

Folic Acid Protects against Hyperuricemia in C57BL/6J Mice via Ameliorating Gut–Kidney Axis Dysfunction

Wang

Zhang

Zheng

et al. 2022

J. Agric. Food Chem.

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Emerging lines of research evidence point to a vital role of gut–kidney axis in the development of hyperuricemia (HUA), which has been identified as an increasing burden worldwide due to the high prevalence. The involved crosstalk which links the metabolic and immune-related pathways is mainly responsible for maintaining the axial homeostasis of uric acid (UA) metabolism. Nowadays, the urate-lowering drugs only aim to treat acute gouty arthritis as a result of their controversial clinical application in HUA. In this study, we established the HUA model of C57BL/6J mice to evaluate the effectiveness of folic acid on UA metabolism and further explored the underlying mechanisms. Folic acid attenuated the kidney tissue injury and excretion dysfunction, as well as the typical fibrosis in HUA mice. Molecular docking results also revealed the structure–activity relationship of the folic acid metabolic unit and the UA transporters GLUT9 and URAT1, implying the potential interaction. Also, folic acid alleviated HUA-induced Th17/Treg imbalance and intestinal tissue damage and inhibited the active state of the TLR4/NF-κB signaling pathway, which is closely associated with the circulating LPS level caused by the impaired intestinal permeability. Furthermore, the changes of intestinal microecology induced by HUA were restored by folic acid, including the alteration in the structure and species composition of the gut microbiome community, and metabolite short-chain fatty acids. Collectively, this study revealed that folic acid intervention exerted improving effects on HUA by ameliorating gut–kidney axis dysfunction.

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“…Consistent with previous studies, pavelcova et al also found that SLC22A12 gene variant rs3825017 (p.N82N) increased the risk of gout [ 51 ]. However, Toyoda et al [ 53 ] found that dysfunctional mutations of SLC22A12 gene have prominent anti-gout effect. Even in the presence of ABCG2 pathogenic mutations, these mutations still have a protective effect on gout.…”

Section: Introductionmentioning

confidence: 99%

“…It can be seen that the vast majority of SLC22A12 gene mutations inhibit the function of URAT1 and reduce the risk of gout. In addition, 27-Hydroxycholesterol (a metabolite of cholesterol) can activate SLC22A12 gene promoter via estrogen response elements (EREs), and then up-regulate the expression of SLC22A12 [ 53 ].…”

Section: Introductionmentioning

confidence: 99%

Susceptibility genes of hyperuricemia and gout

Nian

You

2022

Hereditas

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Gout is a chronic metabolic disease that seriously affects human health. It is also a major challenge facing the world, which has brought a heavy burden to patients and society. Hyperuricemia (HUA) is the most important risk factor for gout. In recent years, with the improvement of living standards and the change of dietary habits, the incidence of gout in the world has increased dramatically, and gradually tends to be younger. An increasing number of studies have shown that gene mutations may play an important role in the development of HUA and gout. Therefore, we reviewed the existing literature and summarized the susceptibility genes and research status of HUA and gout, in order to provide reference for the early diagnosis, individualized treatment and the development of new targeted drugs of HUA and gout.

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27‐Hydroxycholesterol regulates human SLC22A12 gene expression through estrogen receptor action

Cited by 13 publications

References 73 publications

URAT1-selective inhibition ameliorates insulin resistance by attenuating diet-induced hepatic steatosis and brown adipose tissue whitening in mice

URAT1-selective inhibition ameliorates insulin resistance by attenuating diet-induced hepatic steatosis and brown adipose tissue whitening in mice

Folic Acid Protects against Hyperuricemia in C57BL/6J Mice via Ameliorating Gut–Kidney Axis Dysfunction

Susceptibility genes of hyperuricemia and gout

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