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W2335872743 abstract "Growing evidence indicates that sphingosine-1-P (S1P) upregulates glutamate secretion in hippocampal neurons. However, the molecular mechanisms through which S1P enhances excitatory activity remain largely undefined. The aim of this study was to identify presynaptic targets of S1P action controlling exocytosis. Confocal analysis of rat hippocampal neurons showed that S1P applied at nanomolar concentration alters the distribution of Synapsin I (SynI), a presynaptic phosphoprotein that controls the availability of synaptic vesicles for exocytosis. S1P induced SynI relocation to extrasynaptic regions of mature neurons, as well as SynI dispersion from synaptic vesicle clusters present at axonal growth cones of developing neurons. S1P-induced SynI relocation occurred in a Ca 2+ -independent but ERK-dependent manner, likely through the activation of S1P 3 receptors, as it was prevented by the S1P 3 receptor selective antagonist CAY1044 and in neurons in which S1P 3 receptor was silenced. Our recent evidence indicates that microvesicles (MVs) released by microglia enhance the metabolism of endogenous sphingolipids in neurons and stimulate excitatory transmission. We therefore investigated whether MVs affect SynI distribution and whether endogenous S1P could be involved in the process. Analysis of SynI immunoreactivity showed that exposure to microglial MVs induces SynI mobilization at presynaptic sites and growth cones, whereas the use of inhibitors of sphingolipid cascade identified S1P as the sphingolipid mediating SynI redistribution. Our data represent the first demonstration that S1P induces SynI mobilization from synapses, thereby indicating the phosphoprotein as a novel target through which S1P controls exocytosis. SIGNIFICANCE STATEMENT Growing evidence indicates that the bioactive lipid sphingosine and its metabolite sphingosine-1-P (S1P) stimulate excitatory transmission. While it has been recently clarified that sphingosine influences directly the exocytotic machinery by activating the synaptic vesicle protein VAMP2 to form SNARE fusion complexes, the molecular mechanism by which S1P promotes neurotransmission remained largely undefined. In this study, we identify Synapsin I, a presynaptic phosphoprotein involved in the control of availability of synaptic vesicles for exocytosis, as the key target of S1P action. In addition, we provide evidence that S1P can be produced at mature axon terminals as well as at immature growth cones in response to microglia-derived signals, which may be important to stabilize nascent synapses and to restore or potentiate transmission." @default.
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W2335872743 date "2016-04-20" @default.
W2335872743 modified "2023-10-15" @default.
W2335872743 title "Sphingosine-1-Phosphate (S1P) Impacts Presynaptic Functions by Regulating Synapsin I Localization in the Presynaptic Compartment" @default.
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W2335872743 cites W1980053286 @default.
W2335872743 cites W1981950875 @default.
W2335872743 cites W1985966417 @default.
W2335872743 cites W1986175732 @default.
W2335872743 cites W1986840923 @default.
W2335872743 cites W1986866846 @default.
W2335872743 cites W1986991730 @default.
W2335872743 cites W1991863806 @default.
W2335872743 cites W1993910212 @default.
W2335872743 cites W1993931258 @default.
W2335872743 cites W1998033088 @default.
W2335872743 cites W2007541166 @default.
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W2335872743 cites W2038203316 @default.
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W2335872743 cites W2070261634 @default.
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W2335872743 doi "https://doi.org/10.1523/jneurosci.3588-15.2016" @default.
W2335872743 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6601834" @default.
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