Peter Koch1, Stefan Herzig2, Jan Matthes3. 1. Department of Pharmacology, University Clinic Cologne, Gleuelerstrasse 24, D-50931 Cologne, Germany. Electronic address: peter.koch@uk-koeln.de. 2. Department of Pharmacology, University Clinic Cologne, Gleuelerstrasse 24, D-50931 Cologne, Germany. Electronic address: stefan.herzig@uni-koeln.de. 3. Department of Pharmacology, University Clinic Cologne, Gleuelerstrasse 24, D-50931 Cologne, Germany. Electronic address: jan.matthes@uk-koeln.de.
Abstract
INTRODUCTION: Pore-forming subunits of voltage gated calcium channels (VGCC) are large membrane proteins (260kDa) containing 24 transmembrane domains. Despite transfection with viral promoter driven vectors, biochemical analysis of VGCC is often hampered by rather low expression levels in heterologous systems rendering VGCC challenging targets. Especially in immunofluorescent detection, calcium channels are demanding proteins. METHODS: We provide an expert step-by-step protocol with adapted conditions for handling procedures (tsA-201 cell culture, transient transfection, incubation time and temperature at 28°C or 37°C and immunostaining) to address the L-type calcium-channel pore Cav1.2 in an immunofluorescent approach. RESULTS: We performed immunocytochemical analysis of Cav1.2 expression at single-cell level in combination with detection of different markers for cellular organelles. We show confluency levels and shapes of tsA-201 cells at different time points during an experiment. Our experiments reveal sufficient levels of Cav1.2 protein and a correct Cav1.2 expression pattern in polygonal shaped cells already 12h after transfection. DISCUSSION: A sequence of elaborated protocol modifications allows subcellular localization analysis of Cav1.2 in an immunocytochemical approach. We provide a protocol that may be used to achieve insights into physiological and pathophysiological processes involving voltage gated calcium channels. Our protocol may be used for expression analysis of other challenging proteins and efficient overexpression may be exploited in related biochemical techniques requiring immunolabels.
INTRODUCTION: Pore-forming subunits of voltage gated calcium channels (VGCC) are large membrane proteins (260kDa) containing 24 transmembrane domains. Despite transfection with viral promoter driven vectors, biochemical analysis of VGCC is often hampered by rather low expression levels in heterologous systems rendering VGCC challenging targets. Especially in immunofluorescent detection, calcium channels are demanding proteins. METHODS: We provide an expert step-by-step protocol with adapted conditions for handling procedures (tsA-201 cell culture, transient transfection, incubation time and temperature at 28°C or 37°C and immunostaining) to address the L-type calcium-channel pore Cav1.2 in an immunofluorescent approach. RESULTS: We performed immunocytochemical analysis of Cav1.2 expression at single-cell level in combination with detection of different markers for cellular organelles. We show confluency levels and shapes of tsA-201 cells at different time points during an experiment. Our experiments reveal sufficient levels of Cav1.2 protein and a correct Cav1.2 expression pattern in polygonal shaped cells already 12h after transfection. DISCUSSION: A sequence of elaborated protocol modifications allows subcellular localization analysis of Cav1.2 in an immunocytochemical approach. We provide a protocol that may be used to achieve insights into physiological and pathophysiological processes involving voltage gated calcium channels. Our protocol may be used for expression analysis of other challenging proteins and efficient overexpression may be exploited in related biochemical techniques requiring immunolabels.