Chlorogenic Acid Suppresses a Cell Adhesion Molecule in Experimental Autoimmune Myocarditis in Mice

ISSN: 1875-5844 (Online)
ISSN: 1871-5222 (Print)

Volume 12, 2 Issues, 2017

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Immunology, Endocrine & Metabolic Agents in Medicinal Chemistry

Formerly: Current Medicinal Chemistry - Immunology, Endocrine and Metabolic Agents

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Ryuichi Morishita
School of Medicine
Osaka University

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Chlorogenic Acid Suppresses a Cell Adhesion Molecule in Experimental Autoimmune Myocarditis in Mice

Immunology, Endocrine & Metabolic Agents in Medicinal Chemistry, 13(3): 232-236.

Author(s): Hirofumi Zempo, Jun-ichi Suzuki, Masahito Ogawa, Ryo Watanabe, Yuko Tada, Chisato Takamura and Mitsuaki Isobe.

Affiliation: Department of Advanced Clinical Science and Therapeutics, University of Tokyo, 7-3-1 Hongo, Bunkyo, Tokyo 113-8655, Japan.


Background: In patients with myocarditis, autoimmune disease is considered to be responsible for the pathogenesis. Previous studies revealed that plant polyphenols inhibit autoimmune myocarditis in mice. However, the effect of chlorogenic acid (CGA), one of the major polyphenol constituents of coffee beans is remain unknown. The purpose of this study is to investigate the effects of CGA on experimental autoimmune myocarditis (EAM) in mice.

Methods: Balb/c mice were immunized with cardiac myosin peptides and complete Freund's adjuvant. CGA or vehicle (Cont) were administered orally from day 0 to day 21 (n=6 and 7, respectively). Mice were sacrificed on day 21.

Results: We found that the CGA significantly suppressed intercellular adhesion molecule-1 (ICAM-1) expression in the EAM hearts. The suppressed ICAM-1 tended to reduce myocardial fibrosis compared to control EAM hearts.

Conclusion: The findings suggest that the CGA influences inhibition of cell adhesion in myocarditis, the CGA treatment may have beneficial effects for progression of myocarditis.


Adhesion molecules, autoimmunity, Balb/c mice, coffee extract, heart, ICAM, inflammation, myocarditis, myosin, polyphenol.

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Article Details

Volume: 13
Issue Number: 3
First Page: 232
Last Page: 236
Page Count: 5
DOI: 10.2174/18715222113139990007
Price: $58

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