Ammonium‐evoked alterations in intracellular sodium and pH reduce glial glutamate transport activity

The clearance of extracellular glutamate is mainly mediated by pH‐ and sodium‐dependent transport into astrocytes. During hepatic encephalopathy (HE), however, elevated extracellular glutamate concentrations are observed. The primary candidate responsible for the toxic effects observed during HE is ammonium (NH₄⁺/NH₃). Here, we examined the effects of NH₄⁺/NH₃ on steady‐state intracellular pH (pH_i) and sodium concentration (Na⁺]_i) in cultured astrocytes in two different age groups. Moreover, we assessed the influence of NH₄⁺/NH₃ on glutamate transporter activity by measuring D ‐aspartate‐induced pH_i and Na⁺]_i transients. In 20–34 days in vitro (DIV) astrocytes, NH₄⁺/NH₃ decreased steady‐state pH_i by 0.19 pH units and increased Na⁺]_i by 21 mM. D ‐Aspartate‐induced pH_i and Na⁺]_i transients were reduced by 80–90% in the presence of NH₄⁺/NH₃, indicating a dramatic reduction of glutamate uptake activity. In 9–16 DIV astrocytes, in contrast, pH_i and Na⁺]_i were minimally affected by NH₄⁺/NH₃, and D ‐aspartate‐induced pH_i and Na⁺]_i transients were reduced by only 30–40%. Next we determined the contribution of Na⁺, K⁺, Cl^?‐cotransport (NKCC). Immunocytochemical stainings indicated an increased expression of NKCC1 in 20–34 DIV astrocytes. Moreover, inhibition of NKCC with bumetanide prevented NH₄⁺/NH₃‐evoked changes in steady‐state pH_i and Na⁺]_i and attenuated the reduction of D ‐aspartate‐induced pH_i and Na⁺]_i transients by NH₄⁺/NH₃ to 30% in 20–34 DIV astrocytes. Our results suggest that NH₄⁺/NH₃ decreases steady‐state pH_i and increases steady‐state Na⁺]_i in astrocytes by an age‐dependent activation of NKCC. These NH₄⁺/NH₃‐evoked changes in the transmembrane pH and sodium gradients directly reduce glutamate transport activity, and may, thus, contribute to elevated extracellular glutamate levels observed during HE. © 2008 Wiley‐Liss, Inc.