Literature DB >> 18245817

Human C-reactive protein promotes oxidized low density lipoprotein uptake and matrix metalloproteinase-9 release in Wistar rats.

U Singh1, M R Dasu, P G Yancey, A Afify, S Devaraj, I Jialal.   

Abstract

C-reactive protein (CRP) is present in the atherosclerotic plaques and appears to promote atherogenesis. Intraplaque CRP colocalizes with oxidized low density lipoprotein (OxLDL) and macrophages in human atherosclerotic lesions. Matrix metalloproteinase-9 (MMP-9) has been implicated in plaque rupture. CRP promotes OxLDL uptake and MMP induction in vitro; however, these have not been investigated in vivo. We examined the effect of CRP on OxLDL uptake and MMP-9 production in vivo in Wistar rats. CRP significantly increased OxLDL uptake in the peritoneal and sterile pouch macrophages compared with human serum albumin (huSA). CRP also significantly increased intracellular cholesteryl ester accumulation compared with huSA. The increased uptake of OxLDL by CRP was inhibited by pretreatment with antibodies to CD32, CD64, CD36, and fucoidin, suggesting uptake by both scavenger receptors and Fc-gamma receptors. Furthermore, CRP treatment increased MMP-9 activity in macrophages compared with huSA, which was abrogated by inhibitors to p38 mitogen-activated protein kinase, extracellular signal-regulated kinase (ERK), and nuclear factor (NF)-kappaB but not Jun N-terminal kinase (JNK) before human CRP treatment. Because OxLDL uptake by macrophages contributes to foam cell formation and MMP release contributes to plaque instability, this study provides novel in vivo evidence for the role of CRP in atherosclerosis.

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Year:  2008        PMID: 18245817      PMCID: PMC2311439          DOI: 10.1194/jlr.M700535-JLR200

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


  51 in total

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2.  Macrophage uptake of low-density lipoprotein bound to aggregated C-reactive protein: possible mechanism of foam-cell formation in atherosclerotic lesions.

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3.  Effect of caffeic acid phenethyl ester on cartilage in experimental osteoarthritis.

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4.  C-reactive protein upregulates angiotensin type 1 receptors in vascular smooth muscle.

Authors:  Chao-Hung Wang; Shu-Hong Li; Richard D Weisel; Paul W M Fedak; Aaron S Dumont; Paul Szmitko; Ren-Ke Li; Donald A G Mickle; Subodh Verma
Journal:  Circulation       Date:  2003-03-17       Impact factor: 29.690

5.  Selenium supplementation protects from high fat diet-induced atherogenesis in rats: role of mitogen stimulated lymphocytes and macrophage NO production.

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6.  C-reactive protein stimulates MMP-1 expression in U937 histiocytes through Fc[gamma]RII and extracellular signal-regulated kinase pathway:: an implication of CRP involvement in plaque destabilization.

Authors:  Takeyla N Williams; Cecelia X Zhang; Bryan A Game; Lin He; Yan Huang
Journal:  Arterioscler Thromb Vasc Biol       Date:  2003-10-30       Impact factor: 8.311

7.  C-reactive protein binds to both oxidized LDL and apoptotic cells through recognition of a common ligand: Phosphorylcholine of oxidized phospholipids.

Authors:  Mi-Kyung Chang; Christoph J Binder; Michael Torzewski; Joseph L Witztum
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8.  Haplotypic analysis of the MMP-9 gene in relation to coronary artery disease.

Authors:  Angharad R Morgan; Baiping Zhang; William Tapper; Andrew Collins; Shu Ye
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9.  C-reactive protein induces endothelial cell apoptosis and matrix metalloproteinase-9 production in human mononuclear cells: Implications for the destabilization of atherosclerotic plaque.

Authors:  Aoi Nabata; Masatoshi Kuroki; Hiroto Ueba; Shigemasa Hashimoto; Tomio Umemoto; Hiroshi Wada; Takanori Yasu; Muneyasu Saito; Shin-Ichi Momomura; Masanobu Kawakami
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10.  Involvement of C-reactive protein obtained by directional coronary atherectomy in plaque instability and developing restenosis in patients with stable or unstable angina pectoris.

Authors:  Tetsunori Ishikawa; Kinta Hatakeyama; Takuroh Imamura; Haruhiko Date; Yoshisato Shibata; Yutaka Hikichi; Yujiro Asada; Tanenao Eto
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  43 in total

1.  Sex hormone modulation of proinflammatory cytokine and C-reactive protein expression in macrophages from older men and postmenopausal women.

Authors:  Michael P Corcoran; Mohsen Meydani; Alice H Lichtenstein; Ernst J Schaefer; Alice Dillard; Stefania Lamon-Fava
Journal:  J Endocrinol       Date:  2010-05-18       Impact factor: 4.286

2.  C-reactive protein stimulates myeloperoxidase release from polymorphonuclear cells and monocytes: implications for acute coronary syndromes.

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Review 3.  Role of C-reactive protein in contributing to increased cardiovascular risk in metabolic syndrome.

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4.  Endogenous sex hormones and their associations with cardiovascular risk factors in post-menopausal women.

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5.  Synthesis and characterization of a novel inhibitor of C-reactive protein-mediated proinflammatory effects.

Authors:  Pappanaicken R Kumaresan; Sridevi Devaraj; Wenzhe Huang; Edmond Y Lau; Ruiwu Liu; Kit S Lam; Ishwarlal Jialal
Journal:  Metab Syndr Relat Disord       Date:  2013-02-27       Impact factor: 1.894

6.  C-reactive protein impairs the endothelial glycocalyx resulting in endothelial dysfunction.

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7.  Therapeutic potential of phosphoethanolamine-bound C-reactive protein in atherosclerosis.

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Review 8.  The evolving role of C-reactive protein in atherothrombosis.

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9.  Inhibition of endothelial nitric oxide synthase by C-reactive protein: clinical relevance.

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10.  C-reactive protein stimulates superoxide anion release and tissue factor activity in vivo.

Authors:  Sridevi Devaraj; Mohan R Dasu; Uma Singh; L Vijaya Mohan Rao; Ishwarlal Jialal
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