Astrocytic NHERF-1 increases seizure susceptibility by inhibiting surface expression of TREK-1

Abstract

Abstract Mature hippocampal astrocytes exhibit a linear current-to-voltage (I-V) K + membrane conductance, which is called passive conductance. It is estimated to enable astrocytes to keep potassium homeostasis in the brain. We previously reported that the TWIK-1/TREK-1 heterodimeric channels are crucial for astrocytic passive conductance. However, the regulatory mechanism of these channels by other binding proteins still remains elusive. Here, we identified Na+/H + exchange regulator-1 (NHERF-1), a protein highly expressed in astrocytes, as a candidate interaction partner for these channels. NHERF-1 endogenously bound to TWIK-1/TREK-1 in hippocampal cultured astrocytes. When NHERF-1 is overexpressed or silenced, surface expression and activity of TWIK-1/TREK-1 heterodimeric channels were inhibited or enhanced, respectively. Furthermore, we confirmed that reduced astrocytic passive conductance by NHERF-1 overexpressing in the hippocampus increases kainic acid (KA)-induced seizure sensitivity. Taken together, these results suggest that NHERF-1 is a key regulator of TWIK-1/TREK-1 heterodimeric channels in astrocytes and suppression of TREK-1 surface expression by NHERF-1 increases KA-induced seizure susceptibility via reduction of astrocytic passive conductance.