Isorhamnetin protects against oxidative stress by activating Nrf2 and inducing the expression of its target genes.

Isorhamentin is a 3'-O-methylated metabolite of quercetin, and has been reported to have anti-inflammatory and anti-proliferative effects. However, the effects of isorhamnetin on Nrf2 activation and on the expressions of its downstream genes in hepatocytes have not been elucidated. Here, we investigated whether isorhamnetin has the ability to activate Nrf2 and induce phase II antioxidant enzyme expression, and to determine the protective role of isorhamnetin on oxidative injury in hepatocytes. In HepG2 cells, isorhamnetin increased the nuclear translocation of Nrf2 in a dose- and time-dependent manner, and consistently, increased antioxidant response element (ARE) reporter gene activity and the protein levels of hemeoxygenase (HO-1) and of glutamate cysteine ligase (GCL), which resulted in intracellular GSH level increases. The specific role of Nrf2 in isorhamnetin-induced Nrf2 target gene expression was verified using an ARE-deletion mutant plasmid and Nrf2-knockout MEF cells. Deletion of the ARE in the promoter region of the sestrin2 gene, which is recently identified as the Nrf2 target gene by us, abolished the ability of isorhamnetin to increase luciferase activity. In addition, Nrf2 deficiency completely blocked the ability of isorhamnetin to induce HO-1 and GCL. Furthermore, isorhamnetin pretreatment blocked t-BHP-induced ROS production and reversed GSH depletion by t-BHP and consequently, due to reduced ROS levels, decreased t-BHP-induced cell death. In addition isorhamnetin increased ERK1/2, PKCδ and AMPK phosphorylation. Finally, we showed that Nrf2 deficiency blocked the ability of isorhamnetin to protect cells from injury induced by t-BHP. Taken together, our results demonstrate that isorhamnetin is efficacious in protecting hepatocytes against oxidative stress by Nrf2 activation and in inducing the expressions of its downstream genes.

O-Methylated flavonol isorhamnetin prevents acute inflammation through blocking of NF-κB activation.

Here, we isolated isorhamnetin, a natural 3'-O-methylated flavonoid, from water dropwort (Oenanthe javanica, Umbelliferae) and investigated its ability to protect against acute inflammation in vivo and in vitro. To induce paw swelling, the hind paw of each rat was injected with a carrageenan 1h after vehicle or isorhamnetin treatment. In vitro effect and mechanism studies were performed in lipopolysaccharide (LPS)-activated macrophages. Administration of isorhamnetin markedly inhibited the swelling volume and the thickness of hind paws. Moreover, isorhamnetin significantly reduced inflammatory cell infiltration and pro-inflammatory gene expression in rats. Isorhamnetin pretreatment inhibited inducible nitric oxide synthase (iNOS) expression and NO release in LPS-stimulated cells. Activation of nuclear factor-kappa B (NF-κB) and activating protein-1 (AP-1) is the key step in the iNOS gene induction. Isorhamnetin specifically inhibited NF-κB luciferase activity, but not AP-1. Pretreatment with isorhamnetin suppressed NF-κB nuclear translocation in accordance with decreased phosphorylation and degradation of inhibitory-κB. Consistently, TNF-α, IL-1ß and IL-6 expression, representative NF-κB target genes, were almost completely prohibited by isorhamnetin. Furthermore, isorhamnetin inhibited LPS-induced JNK and AKT/IKKα/ß phosphorylation. Our results suggest that isorhamnetin inhibited JNK, and AKT/IKKα/ß activation, leading to NF-κB inactivation, which might contribute to the inhibition of the acute inflammatory response.

Resveratrol inhibits LXRα-dependent hepatic lipogenesis through novel antioxidant Sestrin2 gene induction.

Liver X receptor-α (LXRα), a member of the nuclear receptor superfamily of ligand-activated transcription factors, regulates de novo fatty acid synthesis that leads to stimulate hepatic steatosis. Although, resveratrol has beneficial effects on metabolic disease, it is not known whether resveratrol affects LXRα-dependent lipogenic gene expression. This study investigated the effect of resveratrol in LXRα-mediated lipogenesis and the underlying molecular mechanism. Resveratrol inhibited the ability of LXRα to activate sterol regulatory element binding protein-1c (SREBP-1c) and thereby inhibited target gene expression in hepatocytes. Moreover, resveratrol decreased LXRα-RXRα DNA binding activity and LXRE-luciferase transactivation. Resveratrol is known to activate Sirtuin 1 (Sirt1) and AMP-activated protein kinase (AMPK), although its precise mechanism of action remains controversial. We found that the ability of resveratrol to repress T0901317-induced SREBP-1c expression was not dependent on AMPK and Sirt1. It is well established that hepatic steatosis is associated with antioxidant and redox signaling. Our data showing that expression of Sestrin2 (Sesn2), which is a novel antioxidant gene, was significantly down-regulated in the livers of high-fat diet-fed mice. Moreover, resveratrol up-regulated Sesn2 expression, but not Sesn1 and Sesn3. Sesn2 overexpression repressed LXRα-activated SREBP-1c expression and LXRE-luciferase activity. Finally, Sesn2 knockdown using siRNA abolished the effect of resveratrol in LXRα-induced FAS luciferase gene transactivation. We conclude that resveratrol affects Sesn2 gene induction and contributes to the inhibition of LXRα-mediated hepatic lipogenesis.

Nrf2-ARE pathway regulates induction of Sestrin-2 expression.

The Sestrin2 (Sesn2) gene encodes a conserved antioxidant protein that is induced on oxidative stress and protects cells against reactive oxygen species. NF-E2-related factor-2 (Nrf2) is an essential transcription factor that regulates expression of a variety of antioxidant genes via binding to the antioxidant-response element (ARE), but the role of Nrf2 in Sesn2 gene expression has not been elucidated yet. The present study investigated whether the Nrf2-ARE pathway regulates Sesn2 gene expression and the identification of the molecular mechanism. The Nrf2 activators, tert-butylhydroquinone (t-BHQ) and sulforaphane (SFN), up-regulated Sesn2 expression in a dose- and time-dependent manner in hepatocytes. Also, t-BHQ increased Sesn2 mRNA and luciferase gene activity, whereas the levels of Sesn1 and Sesn3 mRNA were not affected by t-BHQ treatment. The specific role of Nrf2 in Sesn2 induction was verified by using Nrf2 overexpression plasmid and Nrf2 knockout or knockdown cells. In silico analysis of the 5' upstream region of Sesn2 gene identified a putative ARE sequence. Deletion of the putative ARE demonstrated that the ARE from -550 to -539 bp in the human Sesn2 promoter was critical for the Nrf2-mediated response. Moreover, SFN injection increased Sesn2 mRNA and protein levels in the livers of mice. Knockdown experiments with Sesn2 siRNA showed that Sesn2 is required for the Nrf2-mediated cytoprotective activity against hydrogen peroxide. Our results suggest that the Nrf2-ARE pathway is critical for Sesn2 gene expression and might protect against oxidative stress.