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Action potential initiation in neocortical inhibitory interneurons.

PLoS biology (2014-09-10)
Tun Li, Cuiping Tian, Paolo Scalmani, Carolina Frassoni, Massimo Mantegazza, Yonghong Wang, Mingpo Yang, Si Wu, Yousheng Shu
RESUMEN

Action potential (AP) generation in inhibitory interneurons is critical for cortical excitation-inhibition balance and information processing. However, it remains unclear what determines AP initiation in different interneurons. We focused on two predominant interneuron types in neocortex: parvalbumin (PV)- and somatostatin (SST)-expressing neurons. Patch-clamp recording from mouse prefrontal cortical slices showed that axonal but not somatic Na+ channels exhibit different voltage-dependent properties. The minimal activation voltage of axonal channels in SST was substantially higher (∼7 mV) than in PV cells, consistent with differences in AP thresholds. A more mixed distribution of high- and low-threshold channel subtypes at the axon initial segment (AIS) of SST cells may lead to these differences. Surprisingly, NaV1.2 was found accumulated at AIS of SST but not PV cells; reducing NaV1.2-mediated currents in interneurons promoted recurrent network activity. Together, our results reveal the molecular identity of axonal Na+ channels in interneurons and their contribution to AP generation and regulation of network activity.

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Sigma-Aldrich
Anticuerpo anti-parvalbúmina, ascites fluid, clone PARV-19, Chemicon®
Sigma-Aldrich
Anti-Sodium Channel Antibody, Voltage Gated, Brain Type I, Chemicon®, from rabbit