Kainate/Glutamate- induced changes in intracellular calcium and pH in leech glial cells

Abstract

Kainate evokes a non-desensitizing membrane depolarization in neuropile glial cells of the leech Hirudo med- icinalis. We measured membrane potential and intracellular pH, pH_:, using double-barrelled pH-sensitive microelectrodes, and intracellular calcium, Ca²⁺_i, using the change in fluorescence ratio of intracellularly injected fura-2, in these glial cells in situ. 20–50 μM kainate produced a depolarization of 18–28 mV and a decrease of pH_i by 0.27 ± 0.07 pH units. Ca²⁺, increased by 306 ± 128 nM upon kainate, which could be inhibited by the non- NMDA antagonist CNQX. Glutamate (0.1 mM) also produced a fall in pH, and a rise in Ca²⁺_i, which were however, much smaller. Quisqualate and N-methyl-D-aspartate had only small or no effects on membrane potential, pH_i or Ca²⁺_i. It is concluded that leech neuropile glial cells have a kainate-type glutamate receptor, which mediate significant transients of intracellular H⁺ and Ca²⁺.