PÁSEK, Michal, Georges CHRISTÉ and Jiří ŠIMURDA. Impact of T-tubules on electrical activity of cardiac cells evaluated in a quantitative model. In 3rd FEPS Congress -abstract book. 2003.
Other formats:   BibTeX LaTeX RIS
Basic information
Original name Impact of T-tubules on electrical activity of cardiac cells evaluated in a quantitative model
Authors PÁSEK, Michal (203 Czech Republic, guarantor), Georges CHRISTÉ (250 France) and Jiří ŠIMURDA (203 Czech Republic).
Edition 3rd FEPS Congress -abstract book, 2003.
Other information
Original language English
Type of outcome Conference abstract
Field of Study 10610 Biophysics
Country of publisher France
Confidentiality degree is not subject to a state or trade secret
RIV identification code RIV/00216224:14110/03:00008681
Organization unit Faculty of Medicine
Keywords in English cardiac cell; tubular system; quantitative modelling
Tags Cardiac cell, Quantitative modelling, tubular system
Changed by Changed by: doc. Ing. Michal Pásek, Ph.D., učo 46541. Changed: 1/4/2010 10:55.
Abstract
We report here the first quantitative evaluation of the role of the transverse-axial tubular (TAT) system in the electrical activity of cardiac cells. Our approach uses a biophysically-based representation of the TAT-system incorporated into a model of cardiac ventricular cell (Jafri et al., Biophys. J. 1998, 74:1149-68). The model was modified to agree more closely with recent published data. The differential distribution of ion transfer mechanisms in peripheral and tubular membranes was included (e.g. K+ channels; Christé, J. Mol. Cell. Cardiol. 1999, 31:2207-13). Changes of ion concentrations in the TAT-lumen were computed from the total transmembrane ion fluxes and ion exchanges with the pericellular medium. Long term stability of the model was verified at rest and under regular stimulation, the charge conservation principle being respected. The tubular membrane voltage during an action potential was nearly identical with the peripheral membrane voltage, indicating that propagation of excitation along the TAT-system was quasi-instantaneous. Depletion of Ca2+ by 12.8 % and accumulation of K+ by 4.7 % occurred in the TAT-lumen during the course of an action potential at 1 Hz. However, the course of action potential was only slightly altered when the TAT-system was included into the model (shortening by less than 2 % at 90 % of repolarization). Under conditions of progressive hypokalaemia, the TAT-system retarded the occurrence of delayed after-depolarizations owing principally to Ca2+ depletion in the TAT-system and subsequently to suppression of Ca2+ overload in sarcoplasmic reticulum. They occurred at more severe hypokalaemia. These results show that modulation of the excitation-contraction coupling of ventricular cardiac tissue formerly attributed rather to narrow extracellular spaces is also an intrinsic property of the ventricular cardiac myocyte TAT-system, where the preferential localization of ion transfer mechanisms plays a key role.
Links
GP204/02/D129, research and development projectName: Kvantitativní analýza vlivu tubulárního systému na elektrickou aktivitu srdečních buněk
Investor: Czech Science Foundation, Quantitative analysis of effect of tubular system on electrical activity of cardiac cells
PrintDisplayed: 30/8/2024 09:41