Vesicular Release of Glutamate Utilizes the Proton Gradient Between the Vesicle and Synaptic Cleft
نویسندگان
چکیده
Glutamate is released from synaptic vesicles following formation of a fusion pore, connecting the vesicle interior with the synaptic cleft. Release is proposed to result from either full fusion of the vesicle with the terminal membrane or by 'kiss-and-run,' where release occurs through the fusion pore. 'Kiss-and-run' seems implausible as passive diffusion of glutamate through the pore is too slow to account for the rapidity of release. Vesicular accumulation of glutamate is driven by a proton gradient, resulting in the co-release of protons during exocytosis. We tested whether the proton gradient between the vesicle and cleft contributes to glutamate exocytosis. Collapse of the gradient reduced hippocampal glutamatergic transmission, an effect that was not associated with presynaptic changes in excitability, transmitter release probability, or postsynaptic sensitivity. These data indicate that approximately half of glutamate release utilizes the proton gradient between vesicle and cleft, suggesting a significant proportion of release by 'kiss-and-run.'
منابع مشابه
Kissing or Fused Since Some Time
I am particularly interested in the data published by Brown et al. (2010) in their paper entitled " Vesicular release of gluta-mate utilizes the proton gradient between the vesicle and the synaptic cleft ". The paper presents a decrease in transmitter output when the extracellular pH is acidified. The authors interpret their observation in terms of interference with the pH gradient from the ves...
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