Deletion of GPR81 activates CREB/Smad7 pathway and alleviates liver fibrosis in mice

Zhi, Ying; Fan, Kerui; Liu, Shuang; Hu, Kai; Zan, Xinyan; Lin, Ling; Yang, Yongqiang; Gong, Xianqiong; Chen, Kun; Tang, Li; Li, Longjiang; Huang, Jiayi; Zhang, Shujun; Zhang, Li

doi:10.1186/s10020-024-00867-y

Mol Med

2024

DOI: 10.1186/s10020-024-00867-y

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Deletion of GPR81 activates CREB/Smad7 pathway and alleviates liver fibrosis in mice

Ying Zhi,

Kerui Fan,

Shuang Liu

et al.

Abstract: Background Enhanced glycolysis is a crucial metabolic event that drives the development of liver fibrosis, but the molecular mechanisms have not been fully understood. Lactate is the endproduct of glycolysis, which has recently been identified as a bioactive metabolite binding to G-protein-coupled receptor 81 (GPR81). We then questioned whether GPR81 is implicated in the development of liver fibrosis. Methods The level of GPR81 was determined in mi… Show more

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2024

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Tanshinone I improves renal fibrosis by promoting gluconeogenesis through upregulation of peroxisome proliferator-activated receptor-γ coactivator 1α

Bai,

Wen,

Lin

et al. 2024

Renal Failure

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Background Renal fibrosis, a hallmark of chronic kidney disease, is closely associated with dysregulated gluconeogenesis. Tanshinone I (Tan I), a bioactive compound derived from the traditional Chinese medicine Danshen, exhibits antifibrotic and anti-inflammatory properties. However, its effects on gluconeogenesis and the mechanisms through which it alleviates renal fibrosis remain unclear. This study aimed to investigate whether Tan I promotes gluconeogenesis and mitigates renal fibrosis. Methods Both in vivo and in vitro experiments were conducted. A unilateral ureteral obstruction (UUO) mouse model was used. Masson’s trichrome, HE, and immunofluorescence staining, along with Western blotting, were employed. Lactate concentrations and a pyruvate tolerance test were conducted to assess glucose metabolism. In vitro , HK2 cells and primary renal tubular cells were treated with transforming growth factor-β (TGFβ) to induce fibrosis, and the effects of Tan I on glucose and lactate levels were examined. Results In the UUO model, Tan I reduced fibrosis, decreased lactate accumulation, and modulated fibrosis markers while upregulating gluconeogenesis markers. Tanshinone I restored impaired renal gluconeogenesis, as evidenced by increased pyruvate levels. In vitro , Tan I inhibited fibrosis, reduced lactate levels, and increased glucose levels in cell supernatants. It also restored gluconeogenesis protein expression and decreased fibrotic protein levels. Peroxisome proliferator-activated receptor-γ coactivator (PGC1α) expression was downregulated in UUO and TGFβ-stimulated models, and Tan I reversed this downregulation. Inhibition of PGC1α in TGFβ-stimulated cells counteracted the antifibrotic and gluconeogenesis-promoting effects of Tan I. Conclusions Tanshinone I ameliorated renal fibrosis by enhancing gluconeogenesis through upregulation of PGC1α.

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Tanshinone I improves renal fibrosis by promoting gluconeogenesis through upregulation of peroxisome proliferator-activated receptor-γ coactivator 1α

Bai,

Wen,

Lin

et al. 2024

Renal Failure

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show abstract

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Deletion of GPR81 activates CREB/Smad7 pathway and alleviates liver fibrosis in mice

Cited by 1 publication

References 53 publications

Tanshinone I improves renal fibrosis by promoting gluconeogenesis through upregulation of peroxisome proliferator-activated receptor-γ coactivator 1α

Tanshinone I improves renal fibrosis by promoting gluconeogenesis through upregulation of peroxisome proliferator-activated receptor-γ coactivator 1α

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