Normalization of Naxos plakoglobin levels restores cardiac function in mice
Zhiwei Zhang, … , Xinmin Zhou, Ju Chen
Zhiwei Zhang, … , Xinmin Zhou, Ju Chen
Published February 23, 2015
Citation Information: J Clin Invest. 2015;125(4):1708-1712. https://doi.org/10.1172/JCI80335.
View: Text | PDF
Brief Report Cardiology

Normalization of Naxos plakoglobin levels restores cardiac function in mice

Abstract

Arrhythmogenic cardiomyopathy (AC) is associated with mutations in genes encoding intercalated disc proteins and ultimately results in sudden cardiac death. A subset of patients with AC have the autosomal recessive cardiocutaneous disorder Naxos disease, which is caused by a 2–base pair deletion in the plakoglobin-encoding gene JUP that results in a truncated protein with reduced expression. In mice, cardiomyocyte-specific plakoglobin deficiency recapitulates many aspects of human AC, and overexpression of the truncated Naxos-associated plakoglobin also results in an AC-like phenotype; therefore, it is unclear whether Naxos disease results from loss or gain of function consequent to the plakoglobin mutation. Here, we generated 2 knockin mouse models in which endogenous Jup was engineered to express the Naxos-associated form of plakoglobin. In one model, Naxos plakoglobin bypassed the nonsense-mediated mRNA decay pathway, resulting in normal levels of the truncated plakoglobin. Moreover, restoration of Naxos plakoglobin to WT levels resulted in normal heart function. Together, these data indicate that a gain of function in the truncated form of the protein does not underlie the clinical phenotype of patients with Naxos disease and instead suggest that insufficiency of the truncated Naxos plakoglobin accounts for disease manifestation. Moreover, these results suggest that increasing levels of truncated or WT plakoglobin has potential as a therapeutic approach to Naxos disease.

Authors

Zhiwei Zhang, Matthew J. Stroud, Jianlin Zhang, Xi Fang, Kunfu Ouyang, Kensuke Kimura, Yongxin Mu, Nancy D. Dalton, Yusu Gu, William H. Bradford, Kirk L. Peterson, Hongqiang Cheng, Xinmin Zhou, Ju Chen

×

Figure 1

Characterization of the OriNax knockin mouse.

Options: View larger image (or click on image) Download as PowerPoint
Characterization of the OriNax knockin mouse. (A) Kaplan-Meier survival ...
(A) Kaplan-Meier survival curves of WT or OriNax (MUT) mice. Note that all OriNax pups died at PD1, while none of WT littermates did. PKG, plakoglobin. (B) Quantification of mRNA levels of plakoglobin relative to Gapdh levels. Note significant downregulation in the mutant allele. n = 6 mice per genotype. (C) Western blot of WT, heterozygote (HET), and homozygote OriNax mice with N-terminal (PKG Nt) and C-terminal (PKG Ct) antibodies for plakoglobin. GAPDH served as a loading control. Note reduced molecular weight (MW) and amount of plakoglobin in OriNax and HET mice (white asterisks). Arrowheads denote predicted MW of plakoglobin. n = 6 mice per genotype. (D) Macroscopic views of Masson’s Trichrome–stained hearts isolated from WT and OriNax PD1 mice. Note lack of gross morphological defects or fibrosis in hearts from OriNax mice compared with WT littermates. Scale bar: 1 mm. n = 6 mice per genotype. (E) qRT-PCR analysis of indicated genes compared with Gapdh levels. Note that no changes of collagen 1A, Tgfb1, Nfkb, lipoprotein lipase, and adiponectin were observed between WT and OriNax hearts. n = 6 mice per genotype. (F) Heart weight/body weight ratios (HW/BW) were calculated for WT and OriNax mice. n = 6 mice per genotype. Data represent mean ± SEM; **P < 0.01 according to 2-tailed Student’s t test.