Project information
Modulatory role of sigma signalling in electromechanical coupling of isolated cardiomyocyte and heart

Information

This project doesn't include Faculty of Science. It includes Faculty of Medicine. Official project website can be found on muni.cz.
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Project Identification
GA305/04/1385
Project Period
1/2004 - 12/2006
Investor / Pogramme / Project type
Czech Science Foundation
MU Faculty or unit
Faculty of Medicine
Keywords
sigma receptor, membrane surrents, cardiac contrctility
Cooperating Organization
Brno University of Technology

The proposed project deals with the role of sigma receptors in mammalian myocardium. The experiments are designed to answer some elementary questions concerning the effect of sigma signallingt on electromechanical coupling in rat, guinea pig and rabbit heart. Since the effect of sigma receptor binding has been previously studied mainly in rat ventricular cardiomyocytes, it is necessary to extend the experiments also to isolated heart and multicellular heart preparation and to other species. The project is focused on detailed analysis of electrical and mechanical consequences of sigma receptor binding in mammalian myocardium, with respect to differences between species and differences between preparations used (isolated cardiomyocytes, multicellular heart preparations, isolted heart). To study electrophysiological effects of sigma ligands in heart muscle voltage clamp and patch clamp techniqes will be used. Moreover, recording of monophasic action potentials by voltage sensitive dyes will be employed. Mechanical properties of cardiac muscle will be studied by analyses of left ventricular pressure curves and mechanograms from multicellular heart preparations. Putative cytotoxic effects of sigma ligands will be studied in morphological part of the project using electron microschopy techniques. The expected contribution of this project is obtaining of the electrophysiological correlates to inotropic action of sigma receptors and mapping differences between species.

Publications

Total number of publications: 30


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