Literature DB >> 22279185

Macrophage 12/15 lipoxygenase expression increases plasma and hepatic lipid levels and exacerbates atherosclerosis.

Shunxing Rong1, Qiang Cao, Mingxia Liu, Jeongmin Seo, Lin Jia, Elena Boudyguina, Abraham K Gebre, Perry L Colvin, Thomas L Smith, Robert C Murphy, Nilamadhab Mishra, John S Parks.   

Abstract

12/15 lipoxygenase (12/15LO) oxidizes polyunsaturated fatty acids (PUFAs) to form bioactive lipid mediators. The role of 12/15LO in atherosclerosis development remains controversial. We evaluated atherosclerosis development and lipid metabolism in 12/15LO-LDL receptor (LDLr) double knockout (DK) vs. LDLr knockout (SK) mice fed a PUFA-enriched diet to enhance production of 12/15LO products. Compared with SK controls, DK mice fed a PUFA-enriched diet had decreased plasma and liver lipid levels, hepatic lipogenic gene expression, VLDL secretion, and aortic atherosclerosis and increased VLDL turnover. Bone marrow transplantation and Kupffer cell ablation studies suggested both circulating leukocytes and Kupffer cells contributed to the lipid phenotype in 12/15LO-deficient mice. Conditioned medium from in vitro incubation of DK vs. SK macrophages reduced triglyceride secretion in McArdle 7777 hepatoma cells. Our results suggest that, in the context of dietary PUFA enrichment, macrophage 12/15LO expression adversely affects plasma and hepatic lipid metabolism, resulting in exacerbated atherosclerosis.

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Year:  2012        PMID: 22279185      PMCID: PMC3307645          DOI: 10.1194/jlr.M022723

Source DB:  PubMed          Journal:  J Lipid Res        ISSN: 0022-2275            Impact factor:   5.922


  36 in total

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2.  12-Lipoxygenase-knockout mice are resistant to inflammatory effects of obesity induced by Western diet.

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3.  Disruption of 12/15-lipoxygenase expression in peritoneal macrophages. Enhanced utilization of the 5-lipoxygenase pathway and diminished oxidation of low density lipoprotein.

Authors:  D Sun; C D Funk
Journal:  J Biol Chem       Date:  1996-09-27       Impact factor: 5.157

4.  Determining hepatic triglyceride production in mice: comparison of poloxamer 407 with Triton WR-1339.

Authors:  John S Millar; Debra A Cromley; Mary G McCoy; Daniel J Rader; Jeffrey T Billheimer
Journal:  J Lipid Res       Date:  2005-07-01       Impact factor: 5.922

5.  Gene expression in macrophage-rich human atherosclerotic lesions. 15-lipoxygenase and acetyl low density lipoprotein receptor messenger RNA colocalize with oxidation specific lipid-protein adducts.

Authors:  S Ylä-Herttuala; M E Rosenfeld; S Parthasarathy; E Sigal; T Särkioja; J L Witztum; D Steinberg
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6.  Targeted deletion of hepatocyte ABCA1 leads to very low density lipoprotein triglyceride overproduction and low density lipoprotein hypercatabolism.

Authors:  Soonkyu Chung; Jenelle M Timmins; Myngan Duong; Chiara Degirolamo; Shunxing Rong; Janet K Sawyer; Roshni R Singaraja; Michael R Hayden; Nobuyo Maeda; Lawrence L Rudel; Gregory S Shelness; John S Parks
Journal:  J Biol Chem       Date:  2010-02-23       Impact factor: 5.157

7.  Dietary fat-induced alterations in atherosclerosis are abolished by ACAT2-deficiency in ApoB100 only, LDLr-/- mice.

Authors:  Thomas A Bell; Kathryn Kelley; Martha D Wilson; Janet K Sawyer; Lawrence L Rudel
Journal:  Arterioscler Thromb Vasc Biol       Date:  2007-04-12       Impact factor: 8.311

8.  Dual 12/15- and 5-lipoxygenase deficiency in macrophages alters arachidonic acid metabolism and attenuates peritonitis and atherosclerosis in ApoE knock-out mice.

Authors:  Daniel Poeckel; Karin A Zemski Berry; Robert C Murphy; Colin D Funk
Journal:  J Biol Chem       Date:  2009-06-09       Impact factor: 5.157

9.  Transcellular biosynthesis of cysteinyl leukotrienes in vivo during mouse peritoneal inflammation.

Authors:  Simona Zarini; Miguel A Gijón; Aaron E Ransome; Robert C Murphy; Angelo Sala
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10.  Atherosclerosis: evidence for impairment of resolution of vascular inflammation governed by specific lipid mediators.

Authors:  Aksam J Merched; Kerry Ko; Katherine H Gotlinger; Charles N Serhan; Lawrence Chan
Journal:  FASEB J       Date:  2008-06-17       Impact factor: 5.191
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2.  RNA-seq analysis of bovine intramuscular, subcutaneous and perirenal adipose tissues.

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Authors:  Y Imai; A D Dobrian; J R Weaver; M J Butcher; B K Cole; E V Galkina; M A Morris; D A Taylor-Fishwick; J L Nadler
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4.  Inhibiting DNA Methylation by 5-Aza-2'-deoxycytidine ameliorates atherosclerosis through suppressing macrophage inflammation.

Authors:  Qiang Cao; Xianfeng Wang; Lin Jia; Ashis K Mondal; Abdoulaye Diallo; Gregory A Hawkins; Swapan K Das; John S Parks; Liqing Yu; Huidong Shi; Hang Shi; Bingzhong Xue
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5.  Botanical oils enriched in n-6 and n-3 FADS2 products are equally effective in preventing atherosclerosis and fatty liver.

Authors:  Swapnil V Shewale; Elena Boudyguina; Xuewei Zhu; Lulu Shen; Patrick M Hutchins; Robert M Barkley; Robert C Murphy; John S Parks
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6.  In vivo activation of leukocyte GPR120/FFAR4 by PUFAs has minimal impact on atherosclerosis in LDL receptor knockout mice.

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Review 7.  12/15-lipoxygenase during the regulation of inflammation, immunity, and self-tolerance.

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8.  Liver ABCA1 deletion in LDLrKO mice does not impair macrophage reverse cholesterol transport or exacerbate atherogenesis.

Authors:  Xin Bi; Xuewei Zhu; MyNgan Duong; Elena Y Boudyguina; Martha D Wilson; Abraham K Gebre; John S Parks
Journal:  Arterioscler Thromb Vasc Biol       Date:  2013-06-27       Impact factor: 8.311

9.  Dietary carnosine prevents early atherosclerotic lesion formation in apolipoprotein E-null mice.

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Journal:  Arterioscler Thromb Vasc Biol       Date:  2013-04-04       Impact factor: 8.311

Review 10.  Mouse models of atherosclerosis: explaining critical roles of lipid metabolism and inflammation.

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Journal:  J Appl Genet       Date:  2013-01-30       Impact factor: 3.240
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