Robert et al. reveal that muscarinic receptor activation causes hippocampal CA2 pyramidal neurons to depolarize and fire bursts of action potentials. The properties of these bursts are regulated by synaptic inputs, as well as T-type calcium channels, D-type potassium channels, and SK channels.

The integral membrane protein stomatin inhibits the gating of acid-sensing ion channels by an unknown mechanism. Klipp et al. suggest that stomatin binds to the C-terminus of ASIC3 and stabilizes the desensitized state via an interaction with the channels’ first transmembrane domain.

Early-onset epileptic encephalopathy (EOEE) is associated with variants in the SCN2A gene encoding the voltage-gated sodium channel NaV1.2. Thompson et al. reveal that several of these variants have a greater effect on channel function and neuronal excitability when present in neonatal splice isoforms.

Ingram et al. identify and characterize the membrane conductance properties of mouse cone photoreceptors, including the light-dependent conductance in the outer segment and voltage-dependent and Ca2+-activated conductances in the cone inner segment, which shape the voltage response to light.

Zhang et al. derivatize wheat germ agglutinin with small-molecule fluorescent pH sensors to visualize proton fluxes over the extracellular surfaces of transfected cells and primary cardiomyocytes and neuron–astrocyte cocultures.

The expression of expanded CUG-repeat RNAs in myotonic dystrophy type 1 patients is associated with cardiac electrophysiological defects and an elevated risk of sudden cardiac death. Tylock et al. reveal that expression of these RNAs in the murine heart results in prolonged QRS and corrected QT-intervals due to alterations in sodium and potassium channel activity.

Neuronal ASIC channels mediate excitatory sodium currents in response to extracellular acidification. Lynagh et al. reveal the essential roles of pore-lining glutamates in ion conduction and selectivity for ASIC1a- and ASIC2a-containing channels.