Loss of Hepatic CEACAM1: A Unifying Mechanism Linking Insulin Resistance to Obesity and Non-Alcoholic Fatty Liver Disease

被引:27
作者
Heinrich, Garrett [1 ,2 ]
Ghadieh, Hilda E. [3 ]
Ghanem, Simona S. [3 ]
Muturi, Harrison T. [1 ]
Rezaei, Khadijeh [3 ]
Al-Share, Qusai Y. [3 ]
Bowman, Thomas A. [3 ]
Zhang, Deqiang [4 ]
Garofalo, Robert S. [5 ]
Yin, Lei [4 ]
Najjar, Sonia M. [1 ,2 ]
机构
[1] Ohio Univ, Heritage Coll Osteopath Med, Dept Biomed Sci, Athens, OH 45701 USA
[2] Ohio Univ, Inst Diabet, Heritage Coll Osteopath Med, Athens, OH 45701 USA
[3] Univ Toledo, Coll Med & Life Sci, Ctr Diabet & Endocrine Res CeDER, 2801 W Bancroft St, Toledo, OH 43606 USA
[4] Univ Michigan, Sch Med, Dept Mol & Integrat Physiol, Ann Arbor, MI USA
[5] Off Res Affairs, Yale Canc Ctr, New Haven, CT USA
来源
FRONTIERS IN ENDOCRINOLOGY | 2017年 / 8卷
关键词
insulin clearance; insulin resistance; lipogenesis; fatty liver oxidation; lipolysis; NAFLD; visceral obesity; CELL-ADHESION MOLECULE-1; RECEPTOR TYROSINE KINASE; ACID SYNTHASE INHIBITOR; LA-CP RAT; LIPID-METABOLISM; ADIPOSE-TISSUE; ENERGY-EXPENDITURE; PORTAL-VEIN; IN-VIVO; CLEARANCE;
D O I
10.3389/fendo.2017.00008
中图分类号
R5 [内科学];
学科分类号
1002 ; 100201 ;
摘要
The pathogenesis of human non-alcoholic fatty liver disease (NAFLD) remains unclear, in particular in the context of its relationship to insulin resistance and visceral obesity. Work on the carcinoembryonic antigen-related cell adhesion molecule 1 (CEACAM1) in mice has resolved some of the related questions. CEACAM1 promotes insulin clearance by enhancing the rate of uptake of the insulin-receptor complex. It also mediates a negative acute effect of insulin on fatty acid synthase activity. This positions CEACAM1 to coordinate the regulation of insulin and lipid metabolism. Fed a regular chow diet, global null mutation of Ceacam1 manifest hyperinsulinemia, insulin resistance, obesity, and steatohepatitis. They also develop spontaneous chicken-wire fibrosis, characteristic of non-alcoholic steatohepatitis. Reduction of hepatic CEACAM1 expression plays a significant role in the pathogenesis of diet-induced metabolic abnormalities, as bolstered by the protective effect of hepatic CEACAM1 gain-of-function against the metabolic response to dietary fat. Together, this emphasizes that loss of hepatic CEACAM1 links NAFLD to insulin resistance and obesity.
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页数:6
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  • [1] Forced Hepatic Overexpression of CEACAM1 Curtails Diet-Induced Insulin Resistance
    Al-Share, Qusai Y.
    DeAngelis, Anthony M.
    Lester, Sumona Ghosh
    Bowman, Thomas A.
    Ramakrishnan, Sadeesh K.
    Abdallah, Simon L.
    Russo, Lucia
    Patel, Payal R.
    Kaw, Meenakshi K.
    Raphael, Christian K.
    Kim, Andrea Jung
    Heinrich, Garrett
    Lee, Abraham D.
    Kim, Jason K.
    Kulkarni, Rohit N.
    Philbrick, William M.
    Najjar, Sonia M.
    [J]. DIABETES, 2015, 64 (08) : 2780 - 2790
  • [2] Mouse models in non-alcoholic fatty liver disease and steatohepatitis research
    Anstee, QM
    Goldin, RD
    [J]. INTERNATIONAL JOURNAL OF EXPERIMENTAL PATHOLOGY, 2006, 87 (01) : 1 - 16
  • [3] A 5-Day High-Fat, High-Calorie Diet Impairs Insulin Sensitivity in Healthy, Young South Asian Men but Not in Caucasian Men
    Bakker, Leontine E. H.
    van Schinkel, Linda D.
    Guigas, Bruno
    Streefland, Trea C. M.
    Jonker, Jacqueline T.
    van Klinken, Jan B.
    van der Zon, Gerard C. M.
    Lamb, Hildo J.
    Smit, Johannes W. A.
    Pijl, Hanno
    Meinders, A. Edo
    Jazet, Ingrid M.
    [J]. DIABETES, 2014, 63 (01) : 248 - 258
  • [4] Hepatic insulin resistance is sufficient to produce dyslipidemia and susceptibility to atherosclerosis
    Biddinger, Sudha B.
    Hernandez-Ono, Antonio
    Rask-Madsen, Christian
    Haas, Joel T.
    Aleman, Jose O.
    Suzuki, Ryo
    Scapa, Erez F.
    Agarwal, Chhavi
    Carey, Martin C.
    Stephanopoulos, Gregory
    Cohen, David E.
    King, George L.
    Ginsberg, Henry N.
    Kahn, C. Ronald
    [J]. CELL METABOLISM, 2008, 7 (02) : 125 - 134
  • [5] Selective versus total insulin resistance: A pathogenic paradox
    Brown, Michael S.
    Goldstein, Joseph L.
    [J]. CELL METABOLISM, 2008, 7 (02) : 95 - 96
  • [6] Long-term effects of a fatty acid synthase inhibitor on obese mice: food intake, hypothalamic neuropeptides, and UCP3
    Cha, SH
    Hu, ZY
    Lane, MD
    [J]. BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 2004, 317 (02) : 301 - 308
  • [7] Brain fatty acid synthase activates PPARα to maintain energy homeostasis
    Chakravarthy, Manu V.
    Zhu, Yimin
    Lopez, Miguel
    Yin, Li
    Wozniak, David F.
    Coleman, Trey
    Hu, Zhiyuan
    Wolfgang, Michael
    Vidal-Puig, Antonio
    Lane, M. Daniel
    Semenkovich, Clay F.
    [J]. JOURNAL OF CLINICAL INVESTIGATION, 2007, 117 (09) : 2539 - 2552
  • [8] High-fat diet decreases energy expenditure and expression of genes controlling lipid metabolism, mitochondrial function and skeletal system development in the adipose tissue, along with increased expression of extracellular matrix remodelling- and inflammation-related genes
    Choi, Myung-Sook
    Kim, Young-Je
    Kwon, Eun-Young
    Ryoo, Jae Young
    Kim, Sang Ryong
    Jung, Un Ju
    [J]. BRITISH JOURNAL OF NUTRITION, 2015, 113 (06) : 867 - 877
  • [9] Insulin stimulates pp120 endocytosis in cells co-expressing insulin receptors
    Choice, CV
    Howard, MJ
    Poy, MN
    Hankin, MH
    Najjar, SM
    [J]. JOURNAL OF BIOLOGICAL CHEMISTRY, 1998, 273 (35) : 22194 - 22200
  • [10] Human Fatty Liver Disease: Old Questions and New Insights
    Cohen, Jonathan C.
    Horton, Jay D.
    Hobbs, Helen H.
    [J]. SCIENCE, 2011, 332 (6037) : 1519 - 1523
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