2012
DOI: 10.1096/fj.12-206300
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Vesicular uptake and exocytosis of L‐aspartate is independent of sialin

Abstract: The mechanism of release and the role of l-aspartate as a central neurotransmitter are controversial. A vesicular release mechanism for l-aspartate has been difficult to prove, as no vesicular l-aspartate transporter was identified until it was found that sialin could transport l-aspartate and l-glutamate when reconstituted into liposomes. We sought to clarify the release mechanism of l-aspartate and the role of sialin in this process by combining l-aspartate uptake studies in isolated synaptic vesicles with i… Show more

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Cited by 30 publications
(27 citation statements)
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“…It is possible that all three antibodies are capable of immunodetecting SLC17A5, but each displays either different cross-reactivities with other proteins in tissue, or might detect SLC17A5 in different compartments depending on differential exposure or masking of their different epitopes. Similar specificity concerns with these antibodies were recently raised in another study [33]. Therefore, these antibodies rendered “dirty” immunoreactions in the spinal cord and require further investigation before the exact nature of SLC17A5 immunoreactivity can be reported with confidence.…”
Section: Discussionmentioning
confidence: 56%
“…It is possible that all three antibodies are capable of immunodetecting SLC17A5, but each displays either different cross-reactivities with other proteins in tissue, or might detect SLC17A5 in different compartments depending on differential exposure or masking of their different epitopes. Similar specificity concerns with these antibodies were recently raised in another study [33]. Therefore, these antibodies rendered “dirty” immunoreactions in the spinal cord and require further investigation before the exact nature of SLC17A5 immunoreactivity can be reported with confidence.…”
Section: Discussionmentioning
confidence: 56%
“…Moreover, a proteomic study (Takamori et al, 2006) did not detect sialin among the other synaptic vesicle proteins, purified from rat brain. On the other hand, no evidence was found of non-vesicular release of L-aspartate, which confirms the exocytotic release in hippocampus, though, after vesicular accumulation by another transporter than sialin (Morland et al, 2013). …”
Section: Slc17 Familymentioning
confidence: 67%
“…Only recently, Morland and coworkers observed ATP-dependent vesicular uptake of L-aspartate in the brain. Moreover, vesicular L-aspartate uptake, relative to the L-glutamate uptake, was twice as high in the hippocampus as in the whole brain, indicating a crucial role of aspartate signaling in this brain region (Morland et al, 2013). In vitro data suggest that NMDA receptor-mediated excitotoxicity is likely caused by extrasynaptic NR1-NR2B NMDA receptor activation by aspartate, which implicates an important role of aspartate signaling in pathologies marked by excitotoxicity.…”
Section: Slc17 Familymentioning
confidence: 99%
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“…In our own experiments, Daspartate was unable to reduce potassium-evoked, calciumdependent L-glutamate release from synaptosomes indicating that it does not behave as a false transmitter in this system. However, a vesicular transporter for aspartate, sialin, has been described (Miyaji et al, 2008, but also see Morland et al, 2013) and so it is possible that these agents are false transmitters for a system separate from the classical L-glutamate neurotransmitter system. Land D-aspartate and 3-hydroxyaspartate all have significant affinity as agonists for NMDA receptors (Grimwood et al, 1991), a property that would complicate their use as "silent" false transmitters in physiological studies.…”
Section: Tablementioning
confidence: 99%