Matricellular protein CCN3 mitigates abdominal aortic aneurysm
Chao Zhang, … , Domenick A. Prosdocimo, Zhiyong Lin
Chao Zhang, … , Domenick A. Prosdocimo, Zhiyong Lin
Published March 14, 2016
Citation Information: J Clin Invest. 2016;126(4):1282-1299. https://doi.org/10.1172/JCI82337.
View: Text | PDF | Erratum
Research Article Vascular biology

Matricellular protein CCN3 mitigates abdominal aortic aneurysm

Abstract

Abdominal aortic aneurysm (AAA) is a major cause of morbidity and mortality; however, the mechanisms that are involved in disease initiation and progression are incompletely understood. Extracellular matrix proteins play an integral role in modulating vascular homeostasis in health and disease. Here, we determined that the expression of the matricellular protein CCN3 is strongly reduced in rodent AAA models, including angiotensin II–induced AAA and elastase perfusion–stimulated AAA. CCN3 levels were also reduced in human AAA biopsies compared with those in controls. In murine models of induced AAA, germline deletion of Ccn3 resulted in severe phenotypes characterized by elastin fragmentation, vessel dilation, vascular inflammation, dissection, heightened ROS generation, and smooth muscle cell loss. Conversely, overexpression of CCN3 mitigated both elastase- and angiotensin II–induced AAA formation in mice. BM transplantation experiments suggested that the AAA phenotype of CCN3-deficient mice is intrinsic to the vasculature, as AAA was not exacerbated in WT animals that received CCN3-deficient BM and WT BM did not reduce AAA severity in CCN3-deficient mice. Genetic and pharmacological approaches implicated the ERK1/2 pathway as a critical regulator of CCN3-dependent AAA development. Together, these results demonstrate that CCN3 is a nodal regulator in AAA biology and identify CCN3 as a potential therapeutic target for vascular disease.

Authors

Chao Zhang, Dustin van der Voort, Hong Shi, Rongli Zhang, Yulan Qing, Shuichi Hiraoka, Minoru Takemoto, Koutaro Yokote, Joseph V. Moxon, Paul Norman, Laure Rittié, Helena Kuivaniemi, G. Brandon Atkins, Stanton L. Gerson, Guo-Ping Shi, Jonathan Golledge, Nianguo Dong, Bernard Perbal, Domenick A. Prosdocimo, Zhiyong Lin

×

Figure 9

CCN3 overexpression inhibits elastase-induced AAA formation.

Options: View larger image (or click on image) Download as PowerPoint
CCN3 overexpression inhibits elastase-induced AAA formation. (A) Confirm...
(A) Confirmation of lentiviral CCN3 overexpression by Western blot. Left panel, representative Western blot showing CCN3 overexpression after 2 weeks of lentivirus injection; right panel, quantitation data for CCN3 Western blot (n = 5). (B) Infrarenal abdominal aortic dilatation 2 weeks after elastase perfusion in control (control lentivirus [Lenti-Con], n = 7) versus CCN3 overexpression (Ccn3 lentivirus [Lenti-Ccn3], n = 9). Left panel, inhibition of external infrarenal aortic diameter; right panel, percentage of aortic diameter increase (Lenti-Con, n = 7; Lenti-Ccn3, n = 9). (C) Elastin staining by Verhoeff–van Gieson in abdominal aorta following elastase perfusion in control (n = 7) versus Ccn3 overexpression aortae (n = 9). Assessment of MMP activity by in situ zymography (n = 5) (D); macrophage infiltration by immunostaining (Lenti-Con, n = 5; Lenti-Ccn3, n = 9) (E); ROS production by DHE staining (n = 6 per group) (F); and ERK1/2 activation by immunohistochemical analysis (Lenti-Con, n = 7; Lenti-Ccn3, n = 6) (G). Scale bars: 100 μm. Two-way ANOVA followed by Bonferroni’s post-hoc correction was used.