Abstract
The human embryonic kidney 293 (HEK-293) cells are commonly used as host for the heterologous expression of membrane proteins not least because they have a high transfection efficiency and faithfully translate and process proteins. In addition, their cell size, morphology and division rate, and low expression of native channels are traits that are particularly attractive for current-voltage measurements. Nevertheless, the heterologous expression of complex membrane proteins such as receptors and ion channels for biological characterization and in particular for single-cell applications such as electrophysiology remains a challenge. Expression of functional proteins depends largely on careful step-by-step optimization that includes the design of expression vectors with suitable identification tags, as well as the selection of transfection methods and detection parameters appropriate for the application. Here, we use the heterologous expression of a plant potassium channel, the Arabidopsis thaliana guard cell outward-rectifying K+ channel, AtGORK (At5G37500) in HEK-293 cells as an example, to evaluate commonly used transfection reagents and fluorescent detection methods, and provide a detailed methodology for optimized transient transfection and expression of membrane proteins for in vivo studies in general and for single-cell applications in particular. This optimized protocol will facilitate the physiological and cellular characterization of complex membrane proteins.
Highlights
Mammalian cells such as the human embryonic kidney 293 (HEK-293) and the Chinese hamster ovary (CHO) cells are widely used as hosts to express recombinant proteins to study their structural, biophysical, and pharmacological properties (Baldi et al, 2007; Dalton and Barton, 2014)
We provide a generally applicable transfection procedure for the expression of membrane proteins for current-voltage measurements using the A. thaliana guard cell outwardrectifying K+ channel, A. thaliana GORK channel (AtGORK) (At5G37500) as an example and discuss the potential pitfalls as well as the general considerations that must be carefully noted throughout the experimental workflow
In order to select for single cell expressing the channel protein for current-voltage measurement, fluorescent labels were used as indicators for expression of the AtGORK channel in the 293FT cells
Summary
Mammalian cells such as the human embryonic kidney 293 (HEK-293) and the Chinese hamster ovary (CHO) cells are widely used as hosts to express recombinant proteins to study their structural, biophysical, and pharmacological properties (Baldi et al, 2007; Dalton and Barton, 2014). Label the cells transfected with AtGORK-cLumioTM expression vector obtained in step 30 with 1.25 μM of LumioTM Green.
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