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Raiteri L, Raiteri M, Bonanno G: Glycine is taken up through GLYT1 and GLYT2 transporters into mouse spinal cord axon terminals and causes vesicular and carrier-mediated release of its proposed co-transmitter GABA. J Neurochem. 2001 Mar;76(6):1823-32.
Glycine and GABA are likely co-transmitters in the spinal cord. Their possible interactions in presynaptic terminals have, however, not been investigated. We studied the effects of glycine on GABA release using superfused mouse spinal cord synaptosomes. Glycine concentration dependently elicited [(3) H] GABA release which was insensitive to strychnine or 5,7-dichlorokynurenic acid, but was Na (+) dependent and sensitive to the glycine uptake blocker glycyldodecylamide. The glycine effect was external Ca (2+) independent, but was reduced when intraterminal Ca (2+) was chelated with 1,2-bis-(2-aminophenoxy) ethane-N,N,N',N'-tetracetic acid or depleted with thapsigargin, or when vesicular storage was impaired with bafilomycin. Glycine-induced [(3) H] GABA release was prevented, in part, by blocking GABA transport. The glycine effect was halved by sarcosine, a GLYT1 substrate/inhibitor, or by amoxapine, a GLYT2 blocker, and abolished by a mixture of the two. The sensitivity to sarcosine, used as a transporter inhibitor or substrate, persisted in synaptosomes prelabelled with [(3) H] GABA in the presence of beta-alanine, excluding major gliasome involvement. To conclude, in mice spinal cord, transporters for glycine (both GLYT1 and GLYT2) and for GABA coexist on the same axon terminals. Activation of the glycine transporters elicits GABA release, partly by internal Ca (2+)-dependent exocytosis and partly by transporter reversal. |
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