Browsing by Author "Dar, Wasim"

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    Inhibition of Secretin/Secretin Receptor Axis Ameliorates NAFLD Phenotypes
    (Wiley, 2021-10) Chen, Lixian; Wu, Nan; Kennedy, Lindsey; Francis, Heather; Ceci, Ludovica; Zhou, Tianhao; Samala, Niharika; Kyritsi, Konstantina; Wu, Chaodong; Sybenga, Amelia; Ekser, Burcin; Dar, Wasim; Atkins, Constance; Meadows, Vik; Glaser, Shannon; Alpini, Gianfranco; Surgery, School of Medicine
    Background & Aims Human non-alcoholic fatty liver disease (NAFLD) is characterized at early stages by hepatic steatosis, which may progress to nonalcoholic steatohepatitis (NASH) when the liver displays microvesicular steatosis, lobular inflammation, and pericellular fibrosis. The secretin (SCT)/secretin receptor (SCTR) axis promotes biliary senescence and liver fibrosis in cholestatic models through downregulation of miR-125b signaling. We aim to evaluate the effect of disrupting biliary SCT/SCTR/miR-125b signaling on hepatic steatosis, biliary senescence and liver fibrosis in NAFLD/NASH. Approach & Results In vivo, 4 wk male WT, Sct-/- and Sctr-/- mice were fed a control diet (CD) or high-fat diet (HFD) for 16 wks. The expression of SCT/SCTR/miR-125b axis was measured in human NAFLD/NASH liver samples and HFD mouse livers by immunohistochemistry (IHC) and qPCR. Biliary/hepatocyte senescence, ductular reaction and liver angiogenesis were evaluated in mouse liver and human NAFLD/NASH liver samples. miR-125b target lipogenesis genes in hepatocytes were screened and validated by custom RT2 Profiler PCR array and luciferase assay. Biliary SCT/SCTR expression was increased in human NAFLD/NASH samples and in livers of HFD mice, whereas the expression of miR-125b was decreased. Biliary/hepatocyte senescence, ductular reaction, and liver angiogenesis were observed in human NAFLD/NASH samples as well as HFD mice, which were decreased in Sct-/- and Sctr-/- HFD mice. Elovl1 is a lipogenesis gene targeted by miR-125b, and its expression was also decreased in HFD mouse hepatocytes following Sct or Sctr knockout. Bile acid profile in fecal samples have the greatest changes between WT mice and Sct-/-/Sctr-/- mice. Conclusion The biliary SCT/SCTR/miR-125b axis promotes liver steatosis by upregulating lipid biosynthesis gene Elovl1. Targeting the biliary SCT/SCTR/miR-125b axis may be key for ameliorating phenotypes of human NAFLD/NASH.
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    Mast Cells Promote Nonalcoholic Fatty Liver Disease Phenotypes and Microvesicular Steatosis in Mice Fed a Western Diet
    (Wolters Kluwer, 2021) Kennedy, Lindsey; Meadows, Vik; Sybenga, Amelia; Demieville, Jennifer; Chen, Lixian; Hargrove, Laura; Ekser, Burcin; Dar, Wasim; Ceci, Ludovica; Kundu, Debjyoti; Kyritsi, Konstantina; Pham, Linh; Zhou, Tianhao; Glaser, Shannon; Meng, Fanyin; Alpini, Gianfranco; Francis, Heather; Medicine, School of Medicine
    Background and aims: Nonalcoholic fatty liver disease (NAFLD) is simple steatosis but can develop into nonalcoholic steatohepatitis (NASH), characterized by liver inflammation, fibrosis, and microvesicular steatosis. Mast cells (MCs) infiltrate the liver during cholestasis and promote ductular reaction (DR), biliary senescence, and liver fibrosis. We aimed to determine the effects of MC depletion during NAFLD/NASH. Approach and results: Wild-type (WT) and KitW-sh (MC-deficient) mice were fed a control diet (CD) or a Western diet (WD) for 16 weeks; select WT and KitW-sh WD mice received tail vein injections of MCs 2 times per week for 2 weeks prior to sacrifice. Human samples were collected from normal, NAFLD, or NASH mice. Cholangiocytes from WT WD mice and human NASH have increased insulin-like growth factor 1 expression that promotes MC migration/activation. Enhanced MC presence was noted in WT WD mice and human NASH, along with increased DR. WT WD mice had significantly increased steatosis, DR/biliary senescence, inflammation, liver fibrosis, and angiogenesis compared to WT CD mice, which was significantly reduced in KitW-sh WD mice. Loss of MCs prominently reduced microvesicular steatosis in zone 1 hepatocytes. MC injection promoted WD-induced biliary and liver damage and specifically up-regulated microvesicular steatosis in zone 1 hepatocytes. Aldehyde dehydrogenase 1 family, member A3 (ALDH1A3) expression is reduced in WT WD mice and human NASH but increased in KitW-sh WD mice. MicroRNA 144-3 prime (miR-144-3p) expression was increased in WT WD mice and human NASH but reduced in KitW-sh WD mice and was found to target ALDH1A3. Conclusions: MCs promote WD-induced biliary and liver damage and may promote microvesicular steatosis development during NAFLD progression to NASH through miR-144-3p/ALDH1A3 signaling. Inhibition of MC activation may be a therapeutic option for NAFLD/NASH treatment.