Regression of Abdominal Aortic Aneurysm by Inhibition of C-Jun N-terminal Kinase in Mice

Overview

Journal Ann N Y Acad Sci

Specialty Science

Date 2006 Dec 22

PMID 17182924

Citations 30

Authors

Koichi Yoshimura

Hiroki Aoki

Yasuhiro Ikeda

Akira Furutani

Kimikazu Hamano

Masunori Matsuzaki

Affiliations

Soon will be listed here.

Abstract

Abdominal aortic aneurysm (AAA) is a common disease that, when surgical treatment is inapplicable, results in rupture of the aorta with high mortality. Although nonsurgical treatment for AAA is eagerly awaited, the destruction of the aortic walls in AAA has been considered an irreversible process. We found that c-Jun N-terminal kinase (JNK) is highly activated in human AAA walls. We also found that JNK activity is essential for the expression of matrix metalloproteinase (MMP)-9 and, concurrently, suppression of the extracellular matrix (ECM) biosynthesis. We therefore investigated the role of JNK in the pathogenesis of AAA in vivo. We created a mouse AAA model by periaortic application of CaCl(2), which was accompanied by activation of JNK and MMPs, and suppression of lysyl oxidase (LOX), which is an essential biosynthetic enzyme for collagen and elastin fibers. Our data indicate that, in addition to MMP activities, suppression of ECM biosynthesis may contribute to the AAA pathogenesis because local LOX gene delivery prevented AAA formation. Treatment of mice with SP600125, a specific JNK inhibitor, completely abrogated the formation of CaCl(2)-induced AAA. Furthermore, SP600125 treatment after the establishment of AAA caused a reduction in the aortic diameters with normalized tissue architecture. SP600125 treatment also caused significant regression of angiotensin II-induced AAA in ApoE-null mice after its establishment, as demonstrated by serial ultrasonographic studies in live animals. These data demonstrate that JNK dictates the abnormal ECM metabolism in AAA pathogenesis by enhancing tissue degradation and suppressing tissue repair. Therefore, inhibition of JNK may provide a novel therapeutic option for AAA.

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