BACKGROUND: Arrhythmogenic ventricular remodeling is hallmarked by both reduced gap junction expression and increased collagen deposition. We hypothesized that reduced connexin43 (Cx43) expression is responsible for enhanced fibrosis in the remodeled heart, resulting in an arrhythmogenic substrate. Therefore, we investigated the effect of normal or reduced Cx43 expression on the formation of fibrosis in a physiological (aging) and pathophysiological (transverse aortic constriction [TAC]) mouse model. METHODS AND RESULTS: The Cx43(fl/fl) and Cx43(CreER(T)/fl) mice were aged 18 to 21 months or, at the age of 3 months, either TAC or sham operated and euthanized after 16 weeks. Epicardial activation mapping of the right and left ventricles was performed on Langendorff perfused hearts. Sustained ventricular arrhythmias were induced in 0 of 11 aged Cx43(fl/fl) and 10 of 15 Cx43(Cre-ER(T)/fl) mice (P<0.01). Cx43 expression was reduced by half in aged Cx43(CreER(T)/fl) compared with aged Cx43(fl/fl) mice, whereas collagen deposition was significantly increased from 1.1±0.2% to 7.4±1.3%. Aged Cx43(CreER(T)/fl) mice with arrhythmias had significantly higher levels of fibrosis and conduction heterogeneity than aged Cx43(CreER(T)/fl) mice without arrhythmias. The TAC operation significantly increased fibrosis in control compared with sham (4.0±1.2% versus 0.4±0.06%), but this increase was significantly higher in Cx43(CreER(T)/fl) mice (10.8±1.4%). Discoidin domain receptor 2 expression was unchanged, but procollagen peptide I and III expression and collagen type 1α2 mRNA levels were higher in TAC-operated Cx43HZ mice. CONCLUSIONS: Reduced cellular coupling results in more excessive collagen deposition during aging or pressure overload in mice due to enhanced fibroblast activity, leading to increased conduction in homogeneity and proarrhythmia.
BACKGROUND:Arrhythmogenic ventricular remodeling is hallmarked by both reduced gap junction expression and increased collagen deposition. We hypothesized that reduced connexin43 (Cx43) expression is responsible for enhanced fibrosis in the remodeled heart, resulting in an arrhythmogenic substrate. Therefore, we investigated the effect of normal or reduced Cx43 expression on the formation of fibrosis in a physiological (aging) and pathophysiological (transverse aortic constriction [TAC]) mouse model. METHODS AND RESULTS: The Cx43(fl/fl) and Cx43(CreER(T)/fl) mice were aged 18 to 21 months or, at the age of 3 months, either TAC or sham operated and euthanized after 16 weeks. Epicardial activation mapping of the right and left ventricles was performed on Langendorff perfused hearts. Sustained ventricular arrhythmias were induced in 0 of 11 aged Cx43(fl/fl) and 10 of 15 Cx43(Cre-ER(T)/fl) mice (P<0.01). Cx43 expression was reduced by half in aged Cx43(CreER(T)/fl) compared with aged Cx43(fl/fl) mice, whereas collagen deposition was significantly increased from 1.1±0.2% to 7.4±1.3%. Aged Cx43(CreER(T)/fl) mice with arrhythmias had significantly higher levels of fibrosis and conduction heterogeneity than aged Cx43(CreER(T)/fl) mice without arrhythmias. The TAC operation significantly increased fibrosis in control compared with sham (4.0±1.2% versus 0.4±0.06%), but this increase was significantly higher in Cx43(CreER(T)/fl) mice (10.8±1.4%). Discoidin domain receptor 2 expression was unchanged, but procollagen peptide I and III expression and collagen type 1α2 mRNA levels were higher in TAC-operated Cx43HZ mice. CONCLUSIONS: Reduced cellular coupling results in more excessive collagen deposition during aging or pressure overload in mice due to enhanced fibroblast activity, leading to increased conduction in homogeneity and proarrhythmia.
Authors: Hiroki Takanari; Vincent J A Bourgonje; Magda S C Fontes; Antonia J A Raaijmakers; Helen Driessen; John A Jansen; Roel van der Nagel; Bart Kok; Leonie van Stuijvenberg; Mohamed Boulaksil; Yoshio Takemoto; Masatoshi Yamazaki; Yukiomi Tsuji; Haruo Honjo; Kaichiro Kamiya; Itsuo Kodama; Mark E Anderson; Marcel A G van der Heyden; Harold V M van Rijen; Toon A B van Veen; Marc A Vos Journal: Cardiovasc Res Date: 2016-06-29 Impact factor: 10.787
Authors: Myong-Ho Jeong; Hyun-Ji Kim; Jung-Hoon Pyun; Kyu-Sil Choi; Dong I Lee; Soroosh Solhjoo; Brian O'Rourke; Gordon F Tomaselli; Dong Seop Jeong; Hana Cho; Jong-Sun Kang Journal: Proc Natl Acad Sci U S A Date: 2017-02-02 Impact factor: 11.205
Authors: Maarten Aj De Smet; Alessio Lissoni; Timur Nezlobinsky; Nan Wang; Eef Dries; Marta Pérez-Hernández; Xianming Lin; Matthew Amoni; Tim Vervliet; Katja Witschas; Eli Rothenberg; Geert Bultynck; Rainer Schulz; Alexander V Panfilov; Mario Delmar; Karin R Sipido; Luc Leybaert Journal: J Clin Invest Date: 2021-04-01 Impact factor: 14.808
Authors: Antonio Rodríguez-Sinovas; Jose Antonio Sánchez; Laura Valls-Lacalle; Marta Consegal; Ignacio Ferreira-González Journal: Int J Mol Sci Date: 2021-04-23 Impact factor: 5.923