Literature DB >> 23288157

Peptide inhibitor of CXCL4-CCL5 heterodimer formation, MKEY, inhibits experimental aortic aneurysm initiation and progression.

Yasunori Iida1, Baohui Xu, Haojun Xuan, Keith J Glover, Hiroki Tanaka, Xiaolei Hu, Naoki Fujimura, Wei Wang, Joshua R Schultz, Court R Turner, Ronald L Dalman.   

Abstract

OBJECTIVE: Macrophages are critical contributors to abdominal aortic aneurysm (AAA) disease. We examined the ability of MKEY, a peptide inhibitor of CXCL4-CCL5 interaction, to influence AAA progression in murine models. APPROACH AND
RESULTS: AAAs were created in 10-week-old male C57BL/6J mice by transient infrarenal aortic porcine pancreatic elastase infusion. Mice were treated with MKEY via intravenous injection either (1) before porcine pancreatic elastase infusion or (2) after aneurysm initiation. Immunostaining demonstrated CCL5 and CCR5 expression on aneurysmal aortae and mural monocytes/macrophages, respectively. MKEY treatment partially inhibited migration of adaptively transferred leukocytes into aneurysmal aortae in recipient mice. Although all vehicle-pretreated mice developed AAAs, aneurysms formed in only 60% (3/5) and 14% (1/7) of mice pretreated with MKEY at 10 and 20 mg/kg, respectively. MKEY pretreatment reduced aortic diameter enlargement, preserved medial elastin fibers and smooth muscle cells, and attenuated mural macrophage infiltration, angiogenesis, and aortic metalloproteinase 2 and 9 expression after porcine pancreatic elastase infusion. MKEY initiated after porcine pancreatic elastase infusion also stabilized or reduced enlargement of existing AAAs. Finally, MKEY treatment was effective in limiting AAA formation after angiotensin II infusion in apolipoprotein E-deficient mice.
CONCLUSIONS: MKEY suppresses AAA formation and progression in 2 complementary experimental models. Peptide inhibition of CXCL4-CCL5 interactions may represent a viable translational strategy to limit progression of human AAA disease.

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Year:  2013        PMID: 23288157      PMCID: PMC4158029          DOI: 10.1161/ATVBAHA.112.300329

Source DB:  PubMed          Journal:  Arterioscler Thromb Vasc Biol        ISSN: 1079-5642            Impact factor:   8.311


  57 in total

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3.  Chronic angiotensin II infusion promotes atherogenesis in low density lipoprotein receptor -/- mice.

Authors:  A Daugherty; L Cassis
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4.  Angiotensin II promotes atherosclerotic lesions and aneurysms in apolipoprotein E-deficient mice.

Authors:  A Daugherty; M W Manning; L A Cassis
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5.  Systemic MCP1/CCR2 blockade and leukocyte specific MCP1/CCR2 inhibition affect aortic aneurysm formation differently.

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8.  Transient exposure to elastase induces mouse aortic wall smooth muscle cell production of MCP-1 and RANTES during development of experimental aortic aneurysm.

Authors:  Jamie S Colonnello; Kirk A Hance; Murray L Shames; Charles W Wyble; Scott J Ziporin; Jeremy E Leidenfrost; Terri L Ennis; Gilbert R Upchurch; Robert W Thompson
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  37 in total

Review 1.  Monocytes and macrophages in abdominal aortic aneurysm.

Authors:  Juliette Raffort; Fabien Lareyre; Marc Clément; Réda Hassen-Khodja; Giulia Chinetti; Ziad Mallat
Journal:  Nat Rev Cardiol       Date:  2017-04-13       Impact factor: 32.419

2.  A crosstalk triggered by hypoxia and maintained by MCP-1/miR-98/IL-6/p38 regulatory loop between human aortic smooth muscle cells and macrophages leads to aortic smooth muscle cells apoptosis via Stat1 activation.

Authors:  Qing Wang; Chang Shu; Jing Su; Xin Li
Journal:  Int J Clin Exp Pathol       Date:  2015-03-01

3.  Metformin treatment status and abdominal aortic aneurysm disease progression.

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Review 4.  New paradigms in chemokine receptor signal transduction: Moving beyond the two-site model.

Authors:  Andrew B Kleist; Anthony E Getschman; Joshua J Ziarek; Amanda M Nevins; Pierre-Arnaud Gauthier; Andy Chevigné; Martyna Szpakowska; Brian F Volkman
Journal:  Biochem Pharmacol       Date:  2016-04-19       Impact factor: 5.858

5.  Performance comparison of ultrasound-based methods to assess aortic diameter and stiffness in normal and aneurysmal mice.

Authors:  Bram Trachet; Rodrigo A Fraga-Silva; Francisco J Londono; Abigaïl Swillens; Nikolaos Stergiopulos; Patrick Segers
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6.  Inhibition or deletion of angiotensin II type 1 receptor suppresses elastase-induced experimental abdominal aortic aneurysms.

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7.  Hypoxia-inducible factor 1 in clinical and experimental aortic aneurysm disease.

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8.  TREM-1 orchestrates angiotensin II-induced monocyte trafficking and promotes experimental abdominal aortic aneurysm.

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Journal:  J Clin Invest       Date:  2021-01-19       Impact factor: 14.808

9.  Role of myeloperoxidase in abdominal aortic aneurysm formation: mitigation by taurine.

Authors:  Ha Won Kim; Andra L Blomkalns; Mourad Ogbi; Manesh Thomas; Daniel Gavrila; Bonnie S Neltner; Lisa A Cassis; Robert W Thompson; Robert M Weiss; Paul D Lindower; Victor M Blanco; Michael L McCormick; Alan Daugherty; Xiaoming Fu; Stanley L Hazen; Brian K Stansfield; Yuqing Huo; David J Fulton; Tapan Chatterjee; Neal L Weintraub
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Review 10.  Importance of NLRP3 Inflammasome in Abdominal Aortic Aneurysms.

Authors:  Jinyun Shi; Jia Guo; Zhidong Li; Baohui Xu; Masaaki Miyata
Journal:  J Atheroscler Thromb       Date:  2021-03-06       Impact factor: 4.928
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