The content describes a method to pharmacologically distinguish conductances of Kv2/KvS heteromeric channels from Kv2-only channels. Key insights:
Kv2.1/Kv8.1 heteromeric channels are resistant to the Kv2-selective blocker RY785 but sensitive to the Kv2-selective modulator GxTX. This resistance is shared across KvS subunit families (Kv5, Kv6, Kv8, Kv9).
In mouse superior cervical ganglion (SCG) neurons, which lack substantial KvS expression, RY785 blocks most of the Kv2-like conductance, suggesting SCG neurons have predominantly Kv2-only channels.
In mouse nonpeptidergic dorsal root ganglion (DRG) neurons and human DRG neurons, a substantial fraction (>50%) of the Kv2-like conductance is RY785-resistant but GxTX-sensitive, indicating the presence of Kv2/KvS heteromeric channels.
The RY785-resistant, GxTX-sensitive currents in DRG neurons exhibit biophysical properties consistent with Kv2/KvS heteromers, such as slower deactivation kinetics.
These findings suggest that drugs targeting KvS subunits could selectively modulate electrical activity in subsets of Kv2-expressing cell types.
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by Stewart,R. G... о www.biorxiv.org 02-02-2024
https://www.biorxiv.org/content/10.1101/2024.01.31.578214v3Глибші Запити