The potassium channel auxiliary subunit Kv? 2 (Kcnab2) regulates Kv1 channels and dopamine neuron firing

Yee Joshua X.; Rastani Ariana; Soden Marta E.

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The potassium channel auxiliary subunit Kv? 2 (Kcnab2) regulates Kv1 channels and dopamine neuron firing

机译：The potassium channel auxiliary subunit Kv? 2 (Kcnab2) regulates Kv1 channels and dopamine neuron firing

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Ion channel complexes typically consist of both pore-forming subunits and auxiliary subunits that do not directly conduct current but can regulate trafficking or alter channel properties. Isolating the role of these auxiliary subunits in neurons has proved difficult due to a lack of specific pharmacological agents and the potential for developmental compensation in constitutive knockout models. Here, we use cell-type-specific viral-mediated CRISPR/Cas9 mutagenesis to target the potassium channel auxiliary subunit Kvli2 (Kcnab2) in dopamine neurons in the adult mouse brain. We find that mutagenesis of Kcnab2 reduces surface expression of Kv1.2, the primary Kv1 pore-forming subunit expressed in dopamine neurons, and shifts the voltage dependence of inactivation of potassium channel currents toward more hyperpolarized potentials. Loss of Kcnab2 broadens the action potential waveform in spontaneously firing dopamine neurons recorded in slice, reduces the afterhyperpolarization amplitude, and increases spike timing irregularity and excitability, all of which is consistent with a reduction in potassium channel current. Similar effects were observed with mutagenesis of the pore-forming subunit Kv1.2 (Kcna2). These results identify Kv1 currents as important contributors to dopamine neuron firing and demonstrate a role for Kvli2 subunits in regulating the trafficking and gating properties of these ion channels. Furthermore, they demonstrate the utility of CRISPR-mediated mutagenesis in the study of previously difficult to isolate ion channel subunits.NEW & NOTEWORTHY Here, we utilize CRISPR/Cas9-mediated mutagenesis in dopamine neurons in mice to target the gene encoding Kvli2, an auxiliary subunit that forms a part of Kv1 channel complexes. We find that the absence of Kvli2 alters action potential properties by reducing surface expression of pore-forming subunits and shifting the voltage dependence of channel inactivation. This work establishes a new function for Kvli2 subunits and Kv1 complexes in regulating dopamine neuron activity.

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来源
《Journal of Neurophysiology》 |2022年第1期|62-72|共11页
作者
Yee Joshua X.; Rastani Ariana; Soden Marta E.;
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作者单位

University of Washington,Univ Washington;

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原文格式 PDF
正文语种英语
中图分类人体生理学;
关键词
CRISPR; dopamine; Kvnbsp; beta; nbsp; 2; potassium channel; VENTRAL TEGMENTAL AREA; MESSENGER-RNA DECAY; BETA-SUBUNITS; MICE LACKING; EXCITABILITY; EXPRESSION; ADULT; PACEMAKING; DELETION; CURRENTS;

The potassium channel auxiliary subunit Kv? 2 (Kcnab2) regulates Kv1 channels and dopamine neuron firing

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