Synaptic Cleft Acidification and Modulation of Short-Term Depression by Exocytosed Protons in Retinal Bipolar Cells

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The Journal of Neuroscience, December 10, 2003, 23(36):11332-11341

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Cellular/Molecular
Synaptic Cleft Acidification and Modulation of Short-Term Depression by Exocytosed Protons in Retinal Bipolar Cells
Mary J. Palmer, Court Hull, Jozsef Vigh, and Henrique von Gersdorff
The Vollum Institute, Oregon Health and Science University, Portland, Oregon 97239

The release of vesicular protons during exocytosis causes afeedback inhibition of Ca²⁺ channels in photoreceptor terminals;however, the effect of this inhibition on subsequent exocytosishas not been studied. Here we show that a similar L-type Ca²⁺channel inhibition occurs in bipolar cell terminals in slicesof goldfish retina, and we investigate the effect that thishas on subsequent exocytosis with membrane capacitance measurements.We find that transient Ca²⁺ current inhibition is correlatedwith exocytosis and modulated by the concentration of extracellularpH buffer. Ca²⁺ current inhibition is negligible in acutelydissociated terminals, demonstrating the importance of an intactsynaptic cleft. The sensitivity of bipolar cell Ca²⁺ currentsto extracellular pH was assessed: channel conductance is reducedand activation is shifted to more positive potentials by acidification.The effect of Ca²⁺ current inhibition on subsequent exocytosiswas investigated by measuring paired-pulse depression. Underconditions in which there is a large amount of inhibition ofCa²⁺ influx, the degree of paired-pulse depression is significantlyreduced. Finally, we show that under physiological (bicarbonate)buffering conditions, pronounced Ca²⁺ current inhibition occursafter exocytosis ( $~$ 60% peak inhibition), which can decrease subsequentexocytosis during single depolarizations. We estimate that exocytosisis accompanied by a transient change in synaptic cleft pH from7.5 to $~$ 6.9. We suggest that this effect serves as an activity-dependentmodulator of exocytosis at ribbon-type synapses where a largeand compact coterie of vesicles can fuse at each active zone.

Key words: goldfish retina; bipolar cell; presynaptic terminal; Ca²⁺ current; synaptic ribbon; vesicular pH; paired-pulse depression; exocytosis; membrane capacitance

Received Aug 1, 2003; revised October 21, 2003; accepted October 21, 2003.

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