Kv5, Kv6, Kv8, and Kv9 subunits: No simple silent bystanders

E Bocksteins - Journal of General Physiology, 2016 - rupress.org
E Bocksteins
Journal of General Physiology, 2016rupress.org
Members of the electrically silent voltage-gated K+ (Kv) subfamilies (Kv5, Kv6, Kv8, and Kv9,
collectively identified as electrically silent voltage-gated K+ channel [KvS] subunits) do not
form functional homotetrameric channels but assemble with Kv2 subunits into
heterotetrameric Kv2/KvS channels with unique biophysical properties. Unlike the
ubiquitously expressed Kv2 subunits, KvS subunits show a more restricted expression. This
raises the possibility that Kv2/KvS heterotetramers have tissue-specific functions, making …
Members of the electrically silent voltage-gated K+ (Kv) subfamilies (Kv5, Kv6, Kv8, and Kv9, collectively identified as electrically silent voltage-gated K+ channel [KvS] subunits) do not form functional homotetrameric channels but assemble with Kv2 subunits into heterotetrameric Kv2/KvS channels with unique biophysical properties. Unlike the ubiquitously expressed Kv2 subunits, KvS subunits show a more restricted expression. This raises the possibility that Kv2/KvS heterotetramers have tissue-specific functions, making them potential targets for the development of novel therapeutic strategies. Here, I provide an overview of the expression of KvS subunits in different tissues and discuss their proposed role in various physiological and pathophysiological processes. This overview demonstrates the importance of KvS subunits and Kv2/KvS heterotetramers in vivo and the importance of considering KvS subunits and Kv2/KvS heterotetramers in the development of novel treatments.
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