Optogenetic Control of Ca2 + and Voltage-Dependent Large Conductance (BK) Potassium Channels

- Optogenetic approach for channel activation
- CatCh-mediated activation of BK potassium channel
- Light-controlled changes of submembrane calcium concentration
- Under hyperpolarization, the BK channel is only controlled by [Ca2+].
- Calcium concentration jumps in a minimal invasive and reversible manner.

Ca2 + concentration jumps for the activation of Ca2 +-dependent ion channels or transporters can be obtained either by fast solution exchange or by the use of caged Ca2 +. Here, we report on an alternate optogenetic method for the activation of Ca2 + and voltage-dependent large conductance (BK) potassium channels. This was achieved through the use of the light-gated channelrhodopsin 2 variant, CatCh(Calcium translocating Channelrhodopsin) with enhanced Ca, which produces locally [Ca2 +] in the μM range on the inner side of the membrane, without significant [Ca2 +] increase in the cytosol. BK channel subunits α and β1 were expressed together with CatCh in HEK293 cells, and voltage and Ca2 + dependence were analyzed. Light activation of endogenous BK channels under native conditions in astrocytes and glioma cells was also investigated. Additionally, BK channels were used as sensors for the calibration of the [Ca2 +] on the inner surface of the cell membrane.

Graphical Abstract281