Diptendu Chatterjee1, Meena Fatah1, Deniz Akdis2, Danna A Spears3, Tamara T Koopmann1, Kirti Mittal1, Muhammad A Rafiq1, Bruce M Cattanach4, Qili Zhao5, Jeff S Healey6, Michael J Ackerman7, Johan Martijn Bos7, Yu Sun5,8, Jason T Maynes9, Corinna Brunckhorst2, Argelia Medeiros-Domingo10, Firat Duru2,11, Ardan M Saguner2, Robert M Hamilton1. 1. The Labatt Family Heart Centre (Department of Pediatrics) and Translational Medicine, The Hospital for Sick Children & Research Institute and the University of Toronto, Room 1725D, 555 University Avenue, Toronto, Ontario, Canada. 2. Zurich ARVC Program, University Heart Centre Zurich Department of Cardiology, Rämistrasse 100, Zurich, Switzerland. 3. University Health Network, Toronto General Hospital Electrophysiology Department, 200 Elizabeth Street, Toronto, Ontario, Canada. 4. MRC Mammalian Genetics Unit, MRC Harwell Institute, Harwell Science and Innovation Campus, Oxfordshire, UK. 5. University of Toronto Department of Mechanical and Industrial Engineering, Kings College Road, Toronto, Ontario, Canada. 6. Population Health Research Institute and McMaster University Department of Medicine (Division of Cardiology), 237 Barton Street East, Hamilton, Ontario, Canada. 7. Mayo Clinic College of Medicine Department of Cardiovascular Medicine, 200 1st St SW, Rochester, MN, USA. 8. Institute of Biomaterials and Biomedical Engineering, University of Toronto, Rosebrugh Building (RS), 164 College Street, Room 40, Toronto, Ontario, Canada. 9. The Hospital for Sick Children and the University of Toronto Department of Anesthesia and Pain Medicine, 555 University Avenue, Toronto, Ontario, Canada. 10. Bern University Hospital, Department of Cardiology, Freiburgstrasse 18, Bern, Switzerland. 11. Center for Integrative Human Physiology, University of Zurich, Winterthurerstr. 190, Zurich, Switzerland.
Abstract
Aims: Arrhythmogenic right ventricular cardiomyopathy (ARVC) is characterized by right ventricular myocardial replacement and life-threatening ventricular arrhythmias. Desmosomal gene mutations are sometimes identified, but clinical and genetic diagnosis remains challenging. Desmosomal skin disorders can be caused by desmosomal gene mutations or autoantibodies. We sought to determine if anti-desmosome antibodies are present in subjects with ARVC. Methods and results: We evaluated ARVC subjects and controls for antibodies to cardiac desmosomal cadherin proteins. Desmoglein-2 (DSG2), desmocollin-2, and N-cadherin proteins on western blots were exposed to sera, in primary and validation cohorts of subjects and controls, as well as the naturally occurring Boxer dog model of ARVC. We identified anti-DSG2 antibodies in 12/12 and 25/25 definite ARVC cohorts and 7/8 borderline subjects. Antibody was absent in 11/12, faint in 1/12, and absent in 20/20 of two control cohorts. Anti-DSG2 antibodies were present in 10/10 Boxer dogs with ARVC, and absent in 18/18 without. In humans, the level of anti-DSG2 antibodies correlated with the burden of premature ventricular contractions (r = 0.70), and antibodies caused gap junction dysfunction, a common feature of ARVC, in vitro. Anti-DSG2 antibodies were present in ARVC subjects regardless of whether an underlying mutation was identified, or which mutation was present. A disease-specific DSG2 epitope was identified. Conclusion: Anti-DSG2 antibodies are a sensitive and specific biomarker for ARVC. The development of autoimmunity as a result of target-related mutations is unique. Anti-DSG2 antibodies likely explain the cardiac inflammation that is frequently identified in ARVC and may represent a new therapeutic target.
Aims: Arrhythmogenic right ventricular cardiomyopathy (ARVC) is characterized by right ventricular myocardial replacement and life-threatening ventricular arrhythmias. Desmosomal gene mutations are sometimes identified, but clinical and genetic diagnosis remains challenging. Desmosomal skin disorders can be caused by desmosomal gene mutations or autoantibodies. We sought to determine if anti-desmosome antibodies are present in subjects with ARVC. Methods and results: We evaluated ARVC subjects and controls for antibodies to cardiac desmosomal cadherin proteins. Desmoglein-2 (DSG2), desmocollin-2, and N-cadherin proteins on western blots were exposed to sera, in primary and validation cohorts of subjects and controls, as well as the naturally occurring Boxer dog model of ARVC. We identified anti-DSG2 antibodies in 12/12 and 25/25 definite ARVC cohorts and 7/8 borderline subjects. Antibody was absent in 11/12, faint in 1/12, and absent in 20/20 of two control cohorts. Anti-DSG2 antibodies were present in 10/10 Boxer dogs with ARVC, and absent in 18/18 without. In humans, the level of anti-DSG2 antibodies correlated with the burden of premature ventricular contractions (r = 0.70), and antibodies caused gap junction dysfunction, a common feature of ARVC, in vitro. Anti-DSG2 antibodies were present in ARVC subjects regardless of whether an underlying mutation was identified, or which mutation was present. A disease-specific DSG2 epitope was identified. Conclusion: Anti-DSG2 antibodies are a sensitive and specific biomarker for ARVC. The development of autoimmunity as a result of target-related mutations is unique. Anti-DSG2 antibodies likely explain the cardiac inflammation that is frequently identified in ARVC and may represent a new therapeutic target.
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