BACKGROUND: Little is known about the distribution of gap junctions and ion channels in the atrioventricular node, even though the physiology and pathology of the atrioventricular node is ultimately dependent on them. METHODS AND RESULTS: The abundance of 30 transcripts for markers, gap junctions, ion channels, and Ca(2+)-handling proteins in different regions of the rabbit atrioventricular node (nodal extension and proximal and distal penetrating bundle of His as well as atrial and ventricular muscle) was measured using a novel quantitative polymerase chain reaction technique and in situ hybridization. The expression profile of the nodal extension (slow pathway into penetrating bundle) was similar to that of the sinoatrial node. For example, in the nodal extension, in contrast to the atrial muscle and as expected for a slowly conducting tissue with pacemaker activity, there was no or reduced expression of Cx43, Na(v)1.5, Ca(v)1.2, K(v)1.4, KChIP2, and RYR3 and high expression of Ca(v)1.3 and HCN4. The expression profile of the penetrating bundle was less specialized. In situ hybridization revealed a transitional zone with reduced expression of Cx43, Na(v)1.5, and KChIP2 that may form the fast pathway into the penetrating bundle. CONCLUSIONS: At the atrioventricular node, the expression of gap junctions and ion channels in the nodal extension (slow pathway) and a transitional zone (putative fast pathway) as well as the penetrating bundle (output pathway) is specialized and heterogeneous and roughly matches the electrophysiology of the different regions.
BACKGROUND: Little is known about the distribution of gap junctions and ion channels in the atrioventricular node, even though the physiology and pathology of the atrioventricular node is ultimately dependent on them. METHODS AND RESULTS: The abundance of 30 transcripts for markers, gap junctions, ion channels, and Ca(2+)-handling proteins in different regions of the rabbit atrioventricular node (nodal extension and proximal and distal penetrating bundle of His as well as atrial and ventricular muscle) was measured using a novel quantitative polymerase chain reaction technique and in situ hybridization. The expression profile of the nodal extension (slow pathway into penetrating bundle) was similar to that of the sinoatrial node. For example, in the nodal extension, in contrast to the atrial muscle and as expected for a slowly conducting tissue with pacemaker activity, there was no or reduced expression of Cx43, Na(v)1.5, Ca(v)1.2, K(v)1.4, KChIP2, and RYR3 and high expression of Ca(v)1.3 and HCN4. The expression profile of the penetrating bundle was less specialized. In situ hybridization revealed a transitional zone with reduced expression of Cx43, Na(v)1.5, and KChIP2 that may form the fast pathway into the penetrating bundle. CONCLUSIONS: At the atrioventricular node, the expression of gap junctions and ion channels in the nodal extension (slow pathway) and a transitional zone (putative fast pathway) as well as the penetrating bundle (output pathway) is specialized and heterogeneous and roughly matches the electrophysiology of the different regions.
Authors: Ian P Temple; Sunil Jit R J Logantha; Mais Absi; Yu Zhang; Eleftheria Pervolaraki; Joseph Yanni; Andrew Atkinson; Maria Petkova; Gillian M Quigley; Simon Castro; Mark Drinkhill; Heiko Schneider; Oliver Monfredi; Elizabeth Cartwright; Min Zi; Tomoko T Yamanushi; Vaikom S Mahadevan; Alison M Gurney; Ed White; Henggui Zhang; George Hart; Mark R Boyett; Halina Dobrzynski Journal: Circ Arrhythm Electrophysiol Date: 2016-12
Authors: Tim P Kelder; Rebecca Vicente-Steijn; Tom J Harryvan; Georgios Kosmidis; Adriana C Gittenberger-de Groot; Rob E Poelmann; Martin J Schalij; Marco C DeRuiter; Monique R M Jongbloed Journal: J Cell Mol Med Date: 2015-03-06 Impact factor: 5.310
Authors: Sunil Jit R J Logantha; Xue J Cai; Joseph Yanni; Mark R Boyett; George Hart; Caroline B Jones; Robert S Stephenson; Luke Stuart; Gillian Quigley; Oliver Monfredi; Shu Nakao; Il-Young Oh; Tobias Starborg; Ashraf Kitmitto; Akbar Vohra; Robert C Hutcheon; Antonio F Corno; Jonathan C Jarvis; Halina Dobrzynski Journal: Circ Heart Fail Date: 2021-06-30 Impact factor: 8.790
Authors: Theodora Nikolaidou; Xue J Cai; Robert S Stephenson; Joseph Yanni; Tristan Lowe; Andrew J Atkinson; Caroline B Jones; Rida Sardar; Antonio F Corno; Halina Dobrzynski; Philip J Withers; Jonathan C Jarvis; George Hart; Mark R Boyett Journal: PLoS One Date: 2015-10-28 Impact factor: 3.240