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The Journal of Neuroscience, April 15, 1998, 18(8):2982-2990

Regulation of Presynaptic NMDA Responses by External and Intracellular pH Changes at Developing Neuromuscular Synapses

Yu-Hwa Chen¹, Mei-Lin Wu², and Wen-Mei Fu¹

Departments of ¹ Pharmacology and ² Physiology, College of Medicine, National Taiwan University, Taipei, Taiwan 100, Republic of China

NMDA receptors play important roles in synaptic plasticity and neuronal development. The functions of NMDA receptors are modulated by many endogenous substances, such as external pH (pH_e), as well as second messenger systems. In the present study, the nerve-muscle cocultures of Xenopus embryos were used to investigate the effects of both external and intracellular pH (pH_i) changes on the functional responses of presynaptic NMDA receptors. Spontaneous synaptic currents (SSCs) were recorded from innervated myocyte using whole-cell recordings. Local perfusion of NMDA at synaptic regions increased the SSC frequency via the activation of presynaptic NMDA receptors. A decrease in pH_e from 7.6 to 6.6 reduced NMDA responses to 23% of the control, and an increase in pH_e from 7.6 to 8.6 potentiated the NMDA responses in increasing SSC frequency. The effect of NMDA on intracellular Ca²⁺ concentration ([Ca²⁺]_i) was also affected by pH_e changes: external acidification inhibited and alkalinization potentiated [Ca²⁺]_i increases induced by NMDA. Intracellular pH changes of single soma were measured by ratio fluorometric method using 2,7-bis (carboxyethyl)-5,6-carboxyfluorescein (BCECF). Cytosolic acidification was used in which NaCl in Ringer's solution was replaced with weak organic acids. Acetate and propionate but not methylsulfate substitution caused intracellular acidification and potentiated NMDA responses in increasing SSC frequency, intracellular free Ca²⁺ concentration, and NMDA-induced currents. On the other hand, cytosolic alkalinization with NH₄Cl did not significantly affect these NMDA responses. These results suggest that the functions of NMDA receptors are modulated by both pH_e and pH_i changes, which may occur in some physiological or pathological conditions.

Key words: NMDA receptor; NMDA-induced current; intracellular alkalinization; cytosolic acidification; extracellular pH change; developing motoneuron

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Copyright © 1998 Society for Neuroscience  0270-6474/98/1882982-09$05.00/0

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