Optical manipulation of perfused mouse heart expressing channelrhodopsin-2 in rhythm control

Abstract

Optogenetics is a new approach using light intensity to modulate the electrical activity of excitable cells by the interaction of light-sensitive proteins. This method has been widely and enthusiastically utilized in some fields over the last decade. Localizing a photosensitive protein to a specific place in the membrane of cardiomyocytes at a specific time is essential for most biological processes. In this case, vectors are injected into the circulation to allow them to spread throughout the whole heart. The aim of this protocol is to perform different illumination modes with blue laser to investigate optical control of Langendorff-perfused mice hearts which were systematically injected with adeno-associated virus (AAV) for ChR2(H134R) gene transfer. Electrograms (EGs) and epicardium monophasic action potential (MAP) showed that ChR2 expression in the heart can be flexibly controlled by blue light across different illumination sites with corresponding triggered ectopic rhythm. Illumination intensity, pulse duration, and impulse frequency were associated with the light capture rate. Flexible control of the cardiac rhythm with optogenetics provides an innovative approach to cardiac research and therapy.