Hui Tang scite author profile

Kupffer cells are a critical component of the mononuclear phagocytic system and are central to both the hepatic and systemic response to pathogens. Kupffer cells are reemerging as critical mediators of both liver injury and repair. Kupffer cells exhibit a tremendous plasticity; depending on the local metabolic and immune environment, then can express a range of polarized phenotypes, from the proinflammatory M1 phenotype to the alternative/M2 phenotype. Multiple M2 phenotypes can be distinguished, each involved in the resolution of inflammation and wound healing. Here, we have provided an update on recent research that has contributed to the developing delineation of the contribution of Kupffer cells to different types of liver injury, with an emphasis on alcoholic and nonalcoholic liver diseases. These recent advances in our understanding of Kupffer cell function and regulation will likely provide new insights into the potential for therapeutic manipulation of Kupffer cells to promote the resolution of inflammation and enhance wound healing in liver disease.

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Englerin A Agonizes the TRPC4/C5 Cation Channels to Inhibit Tumor Cell Line Proliferation

Carson

et al. 2015

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Englerin A is a structurally unique natural product reported to selectively inhibit growth of renal cell carcinoma cell lines. A large scale phenotypic cell profiling experiment (CLiP) of englerin A on ¬over 500 well characterized cancer cell lines showed that englerin A inhibits growth of a subset of tumor cell lines from many lineages, not just renal cell carcinomas. Expression of the TRPC4 cation channel was the cell line feature that best correlated with sensitivity to englerin A, suggesting the hypothesis that TRPC4 is the efficacy target for englerin A. Genetic experiments demonstrate that TRPC4 expression is both necessary and sufficient for englerin A induced growth inhibition. Englerin A induces calcium influx and membrane depolarization in cells expressing high levels of TRPC4 or its close ortholog TRPC5. Electrophysiology experiments confirmed that englerin A is a TRPC4 agonist. Both the englerin A induced current and the englerin A induced growth inhibition can be blocked by the TRPC4/C5 inhibitor ML204. These experiments confirm that activation of TRPC4/C5 channels inhibits tumor cell line proliferation and confirms the TRPC4 target hypothesis generated by the cell line profiling. In selectivity assays englerin A weakly inhibits TRPA1, TRPV3/V4, and TRPM8 which suggests that englerin A may bind a common feature of TRP ion channels. In vivo experiments show that englerin A is lethal in rodents near doses needed to activate the TRPC4 channel. This toxicity suggests that englerin A itself is probably unsuitable for further drug development. However, since englerin A can be synthesized in the laboratory, it may be a useful chemical starting point to identify novel modulators of other TRP family channels.

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Taurine supplementation prevents ethanol-induced decrease in serum adiponectin and reduces hepatic steatosis in rats #

et al. 2009

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Chronic ethanol feeding decreases expression of adiponectin by adipocytes and circulating adiponectin. Adiponectin treatment during chronic ethanol feeding prevents liver injury in mice. Chronic ethanol feeding also increases oxidative and endoplasmic reticulum (ER) stress in adipose tissue. Here we tested the hypothesis that supplemental taurine, an amino acid that functions as a chemical chaperone/osmolyte and enhances cellular antioxidant activity, would prevent ethanol-induced decreases in adiponectin expression and attenuate liver injury. Serum adiponectin concentrations decreased as early as 4 to 7 days after feeding rats a 36% ethanol diet. This rapid decrease was associated with increased oxidative, but not ER, stress in subcutaneous adipose tissue. Taurine prevented ethanol-induced oxidative stress and increased inflammatory cytokine expression in adipose tissue. Ethanol feeding also rapidly decreased expression of transcription factors regulating adiponectin expression (CCAAT/enhancer binding protein ␣; peroxisome proliferator-activated receptor ␣/␥) in subcutaneous adipose tissue. Taurine prevented the ethanol-induced decrease in CCAAT/enhancer binding protein ␣ and peroxisome proliferator-activated receptor ␣, normalizing adiponectin messenger (m)RNA and serum adiponectin concentrations. In the liver, taurine prevented ethanol-induced oxidative stress and attenuated tumor necrosis factor ␣ expression and steatosis, at least in part, by increasing expression of genes involved in fatty acid oxidation. Conclusion: In subcutaneous adipose tissue, taurine decreased ethanol-induced oxidative stress and cytokine expression, as well as normalized expression of adiponectin mRNA. Taurine prevented ethanol-induced decreases in serum adiponectin; normalized adiponectin was associated with a reduction in hepatic oxidative stress, tumor necrosis factor ␣ expression, and steatosis. Taken together, these data demonstrate that taurine has important protective effects against ethanol-induced tissue injury in both adipose and liver tissue.

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Identification of a Cytochrome P4502E1/Bid/C1q-dependent Axis Mediating Inflammation in Adipose Tissue after Chronic Ethanol Feeding to Mice

Sebastian

Roychowdhury

Tang

et al. 2011

Journal of Biological Chemistry

114

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Background: Chronic alcohol consumption leads to inflammation in adipose tissue, disrupting normal metabolic activity of adipocytes. Results: Expression of an alcohol metabolizing enzyme, cytochrome P4502E1, initiates inflammation in adipose. Bid-dependent apoptosis and activation of complement then exacerbate this initial response. Conclusion: Adipose inflammation during alcohol feeding develops in response to cytochrome P450 expression. Significance: Preventing adipose inflammation may prevent the pathphysiological effects of ethanol.

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Ethanol‐Induced Oxidative Stress via the CYP2E1 Pathway Disrupts Adiponectin Secretion from Adipocytes

Tang

Sebastian

Axhemi

et al. 2011

Alcoholism Clin & Exp Res

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Background Adipose tissue is an important target for ethanol action. One important effect of ethanol is to reduce the secretion of adiponectin from adipocytes; this decrease is associated with lowered circulating adiponectin in rodent models of chronic ethanol feeding. Adiponectin is an insulin-sensitizing, anti-inflammatory adipokine; decreased adiponectin activity may contribute to tissue injury in response to chronic ethanol. Here we investigated the role of cytochrome P450 2E1 (CYP2E1) and oxidative stress in the mechanism for impaired adiponectin secretion from adipocytes in response to ethanol. Methods Male Wistar rats were fed a liquid diet containing ethanol as 36% of calories or pair-fed a control diet for 4 weeks. 3T3-L1 adipocyte cultures, expressing CYP2E1 or not, were exposed to ethanol or 4-hydroxynonenal (4-HNE). Results Chronic ethanol feeding to rats suppressed the secretion of adiponectin from isolated epididymal adipocytes. Ethanol feeding induced the expression of CYP2E1 in adipocytes and increased markers of oxidative stress, including 4-HNE and protein carbonyls. Because adiponectin is post-translationally processed in the endoplasmic reticulum and Golgi, we investigated the impact of ethanol on the redox status of high density microsomes. Chronic ethanol decreased the ratio of reduced glutathione to oxidized glutathione (4.6:1, pair-fed; 2.9:1, ethanol-fed) in high density microsomes isolated from rat epididymal adipose tissue. We next utilized the 3T3-L1 adipocyte-like cell model to interrogate the mechanisms for impaired adiponectin secretion. Culture of 3T3-L1 adipocytes overexpressing exogenous CYP2E1, but not those overexpressing anti-sense CYP2E1, with ethanol increased oxidative stress and impaired adiponectin secretion from intracellular pools. Consistent with a role of oxidative stress in impaired adiponectin secretion, challenge of 3T3-L1 adipocytes with 4-HNE also reduced adiponectin mRNA expression and secretion, without affecting intracellular adiponectin concentration. Conclusions These data demonstrate that CYP2E1-dependent reactive oxygen species production in response to ethanol disrupts adiponectin secretion from adipocytes.

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Hui Tang

Kupffer Cells in the Liver

Englerin A Agonizes the TRPC4/C5 Cation Channels to Inhibit Tumor Cell Line Proliferation

Taurine supplementation prevents ethanol-induced decrease in serum adiponectin and reduces hepatic steatosis in rats #

Identification of a Cytochrome P4502E1/Bid/C1q-dependent Axis Mediating Inflammation in Adipose Tissue after Chronic Ethanol Feeding to Mice

Ethanol‐Induced Oxidative Stress via the CYP2E1 Pathway Disrupts Adiponectin Secretion from Adipocytes

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