Abstract
Two syntaxin 1 (STX1) isoforms, HPC-1/STX1A and STX1B, are coexpressed in neurons and function as neuronal target membrane (t)-SNAREs. However, little is known about their functional differences in synaptic transmission. STX1A null mutant mice develop normally and do not show abnormalities in fast synaptic transmission, but monoaminergic transmissions are impaired. In the present study, we found that STX1B null mutant mice died within 2 weeks of birth. To examine functional differences between STX1A and 1B, we analyzed the presynaptic properties of glutamatergic and GABAergic synapses in STX1B null mutant and STX1A/1B double null mutant mice. We found that the frequency of spontaneous quantal release was lower and the paired-pulse ratio of evoked postsynaptic currents was significantly greater in glutamatergic and GABAergic synapses of STX1B null neurons. Deletion of STX1B also accelerated synaptic vesicle turnover in glutamatergic synapses and decreased the size of the readily releasable pool in glutamatergic and GABAergic synapses. Moreover, STX1A/1B double null neurons showed reduced and asynchronous evoked synaptic vesicle release in glutamatergic and GABAergic synapses. Our results suggest that although STX1A and 1B share a basic function as neuronal t-SNAREs, STX1B but not STX1A is necessary for the regulation of spontaneous and evoked synaptic vesicle exocytosis in fast transmission.
Highlights
Neurotransmitter release is mediated by the soluble Nethylmaleimide-sensitive factor attachment protein receptor (SNARE) complex [1,2], located at the vesicle membrane and at the target membrane (t-SNARE) of the presynaptic terminal
We examine the function of the Syntaxin 1 (STX1) isoforms in fast synaptic vesicle exocytosis by analyzing neural phenotypes of STX1B null neurons and STX1A/1B double null neurons in culture
We show that STX1A and 1B share a basic function as neuronal t-SNAREs, STX1B is the principal mediator for spontaneous and evoked fast synaptic vesicle exocytosis
Summary
Neurotransmitter release is mediated by the soluble Nethylmaleimide-sensitive factor attachment protein receptor (SNARE) complex [1,2], located at the vesicle membrane (vSNARE) and at the target membrane (t-SNARE) of the presynaptic terminal. Loss of VAMP-2 or SNAP-25 results in severe impairment of Ca2+-evoked synaptic vesicle exocytosis but has a relatively mild effect on spontaneous vesicle release [10,11]. We reported that deletion of STX1A has no effect on evoked or spontaneous fast synaptic transmission, impairments are seen in hippocampal monoaminergic transmission, long-term potentiation and learning ability [12,13]. This phenotype might be due to compensation by STX1B, because these isoforms are highly homologous. We show that STX1A and 1B share a basic function as neuronal t-SNAREs, STX1B is the principal mediator for spontaneous and evoked fast synaptic vesicle exocytosis
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