Glutamate transporter‐associated anion channels adjust intracellular chloride concentrations during glial maturation

Astrocytic volume regulation and neurotransmitter uptake are critically dependent on the intracellular anion concentration, but little is known about the mechanisms controlling internal anion homeostasis in these cells. Here we used fluorescence lifetime imaging microscopy (FLIM) with the chloride‐sensitive dye MQAE to measure intracellular chloride concentrations in murine Bergmann glial cells in acute cerebellar slices. We found Bergmann glial Cl^?]_int to be controlled by two opposing transport processes: chloride is actively accumulated by the Na⁺‐K⁺‐2Cl^? cotransporter NKCC1, and chloride efflux through anion channels associated with excitatory amino acid transporters (EAATs) reduces Cl^?]_int to values that vary upon changes in expression levels or activity of these channels. EAATs transiently form anion‐selective channels during glutamate transport, and thus represent a class of ligand‐gated anion channels. Age‐dependent upregulation of EAATs results in a developmental chloride switch from high internal chloride concentrations (51.6 ± 2.2 mM, mean ± 95% confidence interval) during early development to adult levels (35.3 ± 0.3 mM). Simultaneous blockade of EAAT1/GLAST and EAAT2/GLT‐1 increased Cl^?]_int in adult glia to neonatal values. Moreover, EAAT activation by synaptic stimulations rapidly decreased Cl^?]_int. Other tested chloride channels or chloride transporters do not contribute to Cl^?]_int under our experimental conditions. Neither genetic removal of ClC‐2 nor pharmacological block of K⁺‐Cl^? cotransporter change resting Bergmann glial Cl^?]_int in acute cerebellar slices. We conclude that EAAT anion channels play an important and unexpected role in adjusting glial intracellular anion concentration during maturation and in response to cerebellar activity. GLIA 2017;65:388–400