Referenced in: Kv7.3

Automatically associated channels: Kv7.2 , Kv7.3

Title: Three mechanisms underlie KCNQ2/3 heteromeric potassium M-channel potentiation.

Authors: Ainhoa Etxeberria, Irene Santana-Castro, M Paz Regalado, Paloma Aivar, Alvaro Villarroel

Journal, date & volume: J. Neurosci., 2004 Oct 13 , 24, 9146-52

PubMed link: http://www.ncbi.nlm.nih.gov/pubmed/15483133

Abstract
The non-inactivating potassium M-current exerts a strong influence on neuronal excitability. The channels responsible for this current are made up of KCNQ subunits, and mutations in most of these produce human pathologies. Notably, in terms of excitation, mutations in either KCNQ2 or KCNQ3 lead to benign neonatal familial convulsions. Although a mere reduction of 25% in KCNQ2/3 function can increase excitability to epileptogenic levels, the potentiation of these subunits has anti-epileptogenic effects. After KCNQ2/3 heteromerization, current levels can augment as much as 10-fold, and we have discovered that there are three processes underlying this potentiation. First, there is an increase in the number of channels inserted in the membrane after heteromerization of the C-terminal region. Second, the N-terminal domain from KCNQ2 exerts a negative influence on the current level. Finally, Ala 315 of KCNQ3, a residue located in the inner vestibule after the selectivity filter, plays a critical role in preventing current flow in KCNQ3 homomeric channels, whereas it is permissive in heteromers in combination with Thr at the equivalent 276 position of KCNQ2.