Xue‐Rong Xiao scite author profile

The present study used metabolomics, transcriptomics, protein analysis by immunoblots, chemical inhibition and gene knockout mice to determine the effects of celastrol on cholestasis and its mechanisms. Samples from patients were used to validate our findings, and the data supported the conclusions that celastrol protected against cholestatic liver injury through modulation of the SIRT1 and FXR. Graphical Abstract Highlights• 1. Celastrol alleviated cholestatic liver injury.• 2. Celastrol inhibited the decrease of SIRT1 induced by deoxycholic acid.• 3. SIRT1-FXR signaling pathway mediated the effect of celastrol.Celastrol, derived from the roots of the Tripterygium Wilfordi, shows a striking effect on obesity. In the present study, the role of celastrol in cholestasis was investigated using metabolomics and transcriptomics. Celastrol treatment significantly alleviated cholestatic liver injury in mice induced by ␣-naphthyl isothiocyanate (ANIT) and thioacetamide (TAA). Celastrol was found to activate sirtuin 1 (SIRT1), increase farnesoid X receptor (FXR) signaling and inhibit nuclear factor-kappa B and P53 signaling. The protective role of celastrol in cholestatic liver injury was diminished in mice on co-administration of SIRT1 inhibitors. Further, the effects of celastrol on cholestatic liver injury were dramatically decreased in Fxr-null mice, suggesting that the SIRT1-FXR signaling pathway mediates the protective effects of celastrol. These observations demonstrated a novel role for celastrol in protecting against cholestatic liver injury through modulation of the SIRT1 and FXR.

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A metabolomic perspective of pazopanib-induced acute hepatotoxicity in mice

Wang

Yang

Liang³

et al. 2018

Xenobiotica

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To elucidate the metabolism of pazopanib, a metabolomics approach was performed based on ultra-performance liquid chromatography coupled with electrospray ionization quadrupole mass spectrometry. A total of 22 pazopanib metabolites were identified in vitro and in vivo. Among these metabolites, 17 were novel, including several cysteine adducts and aldehyde derivatives. By screening using recombinant CYPs, CYP3A4 and CYP1A2 were found to be the main forms involved in the pazopanib hydroxylation. Formation of a cysteine conjugate (M3), an aldehyde derivative (M15) and two N-oxide metabolites (M18 and M20) from pazopanib could induce the oxidative stress that may be responsible in part for pazopanib-induced hepatotoxicity. Morphological observation of the liver suggested that pazopanib (300 mg/kg) could cause liver injury. The aspartate transaminase and alanine aminotransferase in serum significantly increased after pazopanib (150, 300 mg/kg) treatment; this liver injury could be partially reversed by the broad-spectrum CYP inhibitor 1-aminobenzotriazole (ABT). Metabolomics analysis revealed that pazopanib could significantly change the levels of L-carnitine, proline and lysophosphatidylcholine 18:1 in liver. Additionally, drug metabolism-related gene expression analysis revealed that hepatic Cyp2d22 and Abcb1a (P-gp) mRNAs were significantly lowered by pazopanib treatment. In conclusion, this study provides a global view of pazopanib metabolism and clues to its influence on hepatic function.

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Automated dendritic spine detection using convolutional neural networks on maximum intensity projected microscopic volumes

Xiao

Djurišić

Hoogi

et al. 2018

Journal of Neuroscience Methods

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Xue‐Rong Xiao

Celastrol Protects From Cholestatic Liver Injury Through Modulation of SIRT1-FXR Signaling

A metabolomic perspective of pazopanib-induced acute hepatotoxicity in mice

Automated dendritic spine detection using convolutional neural networks on maximum intensity projected microscopic volumes

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