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      Abnormal Ca 2+ homeostasis, atrial arrhythmogenesis, and sinus node dysfunction in murine hearts modeling RyR2 modification

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          Abstract

          Ryanodine receptor type 2 ( RyR2) mutations are implicated in catecholaminergic polymorphic ventricular tachycardia (CPVT) thought to result from altered myocyte Ca 2+ homeostasis reflecting inappropriate “leakiness” of RyR2-Ca 2+ release channels arising from increases in their basal activity, alterations in their phosphorylation, or defective interactions with other molecules or ions. The latter include calstabin, calsequestrin-2, Mg 2+, and extraluminal or intraluminal Ca 2+. Recent clinical studies additionally associate RyR2 abnormalities with atrial arrhythmias including atrial tachycardia (AT), fibrillation (AF), and standstill, and sinus node dysfunction (SND). Some RyR2 mutations associated with CPVT in mouse models also show such arrhythmias that similarly correlate with altered Ca 2+ homeostasis. Some examples show evidence for increased Ca 2+/calmodulin-dependent protein kinase II (CaMKII) phosphorylation of RyR2. A homozygotic RyR2-P2328S variant demonstrates potential arrhythmic substrate resulting from reduced conduction velocity (CV) in addition to delayed afterdepolarizations (DADs) and ectopic action potential (AP) firing. Finally, one model with an increased RyR2 activity in the sino-atrial node (SAN) shows decreased automaticity in the presence of Ca 2+-dependent decreases in I Ca, L and diastolic sarcoplasmic reticular (SR) Ca 2+ depletion.

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          Most cited references61

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          Atrial remodeling and atrial fibrillation: mechanisms and implications.

          Stanley Nattel, Brett Burstein, Dobromir Dobrev (2008)
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            Catecholaminergic polymorphic ventricular tachycardia in children. A 7-year follow-up of 21 patients.

            Antoine Leenhardt, Vincent Lucet, Isabelle Denjoy (1995)
            Primary ventricular tachyarrhythmias are rarely seen in children. Among them, catecholaminergic polymorphic ventricular tachycardia has a poor spontaneous outcome. Its diagnosis is often delayed after the first symptoms, which is unacceptable because treatment with the appropriate beta-blocker prevents sudden death. We observed 21 children (mean +/- SD age, 9.9 +/- 4 years) at the time of the diagnosis who had no structural heart disease and a normal QT interval on routine ECG. They were referred for stress- or emotion-induced syncope related to ventricular polymorphic tachyarrhythmias. The arrhythmia, consisting of isolated polymorphic ventricular extrasystoles followed by salvoes of bidirectional and polymorphic tachycardia susceptible to degeneration into ventricular fibrillation, was reproducibly induced by any form of increasing adrenergic stimulation. There was a familial history of syncope or sudden death in 30% of our patients. On receiving therapy with the appropriate beta-blocker, the patients' symptoms and polymorphic tachyarrhythmias disappeared. During a mean follow-up period of 7 years, three syncopal events and two sudden deaths occurred, probably due to treatment interruption. The entity of adrenergic-dependent, potentially lethal tachyarrhythmia with no structural heart disease deserves to be individualized. It may form a variant of the congenital long QT syndrome in which the ECG marker is lacking; this primary ventricular arrhythmia must be looked for in a pediatric patient with stress- or emotion-induced syncope because only beta-blocking therapy can prevent sudden death and therefore must be given for the patient's lifetime.
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              Mutations of the cardiac ryanodine receptor (RyR2) gene in familial polymorphic ventricular tachycardia.

              Päivi J. Laitinen, Kevin M Brown, Kirsi Piippo (2001)
              Familial polymorphic ventricular tachycardia is an autosomal-dominant, inherited disease with a relatively early onset and a mortality rate of approximately 30% by the age of 30 years. Phenotypically, it is characterized by salvoes of bidirectional and polymorphic ventricular tachycardias in response to vigorous exercise, with no structural evidence of myocardial disease. We previously mapped the causative gene to chromosome 1q42-q43. In the present study, we demonstrate that patients with familial polymorphic ventricular tachycardia have missense mutations in the cardiac sarcoplasmic reticulum calcium release channel (ryanodine receptor type 2 [RyR2]). In 3 large families studied, 3 different RyR2 mutations (P2328S, Q4201R, V4653F) were detected and shown to fully cosegregate with the characteristic arrhythmic phenotype. These mutations were absent in the nonaffected family members and in 100 healthy controls. In addition to identifying 3 causative mutations, we identified a number of single nucleotide polymorphisms that span the genomic structure of RyR2 and will be useful for candidate-based association studies for other arrhythmic disorders. Our data illustrate that mutations of the RyR2 gene cause at least one variety of inherited polymorphic tachycardia. These findings define a new entity of disorders of myocardial calcium signaling.
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                Author and article information

                Journal
                Journal ID (nlm-ta): Front Physiol
                Journal ID (iso-abbrev): Front Physiol
                Journal ID (publisher-id): Front. Physiol.
                Title: Frontiers in Physiology
                Publisher: Frontiers Media S.A.
                ISSN (Electronic): 1664-042X
                Publication date (Electronic): 25 June 2013
                Publication date Collection: 2013
                Volume: 4
                Electronic Location Identifier: 150
                Affiliations
                [1] 1Department of Paediatrics, Institute of Shaanxi Province Children's Cardiovascular Diseases, The Shaanxi Provincial People's Hospital of Xi'an Jiaotong University Xi'an, PR of China
                [2] 2Faculty of Medicine and Human Sciences, Institute of Cardiovascular Sciences, University of Manchester Manchester, UK
                [3] 3Physiological Laboratory, Faculty of Biology, University of Cambridge Cambridge, UK
                [4] 4Department of Biochemistry, University of Cambridge Cambridge, UK
                Author notes

                Edited by: Ian N. Sabir, King's College London, UK

                Reviewed by: Henggui Zhang, The University of Manchester, UK; Søren P. Olesen, University of Copenhagen, Denmark

                *Correspondence: Yanmin Zhang, Institute of Cardiovascular Sciences, University of Manchester, CTF Building, 46 Grafton Street, Manchester M13 9NT, UK e-mail: yanmin.zhang@ 123456manchester.ac.uk

                This article was submitted to Frontiers in Cardiac Electrophysiology, a specialty of Frontiers in Physiology.

                †Joint senior authors for this paper.

                Article
                DOI: 10.3389/fphys.2013.00150
                PMC ID: 3691467
                PubMed ID: 23805105
                SO-VID: e0887c60-1ec5-45d6-84b0-73dee73c033c
                Copyright © Copyright © 2013 Zhang, Matthews, Lei and Huang.
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in other forums, provided the original authors and source are credited and subject to any copyright notices concerning any third-party graphics etc.

                History
                Date received : 21 April 2013
                Date accepted : 05 June 2013
                Page count
                Figures: 1, Tables: 1, Equations: 0, References: 75, Pages: 7, Words: 5857
                Categories
                Subject: Physiology
                Subject: Mini Review Article

                ScienceOpen disciplines: Anatomy & Physiology
                Keywords: ryr2,mutation,sinus node dysfunction,atrial arrhythmias,mouse models
                Data availability:
                ScienceOpen disciplines: Anatomy & Physiology
                Keywords: ryr2, mutation, sinus node dysfunction, atrial arrhythmias, mouse models

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