2012
DOI: 10.1016/j.pneurobio.2012.04.004
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Neurotransmitter segregation: Functional and plastic implications

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Cited by 22 publications
(23 citation statements)
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“…26, based on growing evidence that neurons in several brain regions can synthesize and segregate neurotransmitters, their synthesizing enzymes, or associated vesicular transporters to different populations of synaptic vesicles in the same terminals, or sort these molecules to different axon processes (El Mestikawy et al 2011; Samano et al 2012; Vaaga et al 2014). This makes it possible for terminals to co-release (or co-transmit) neurotransmitters onto the same or different targets (Saunders et al 2015).…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…26, based on growing evidence that neurons in several brain regions can synthesize and segregate neurotransmitters, their synthesizing enzymes, or associated vesicular transporters to different populations of synaptic vesicles in the same terminals, or sort these molecules to different axon processes (El Mestikawy et al 2011; Samano et al 2012; Vaaga et al 2014). This makes it possible for terminals to co-release (or co-transmit) neurotransmitters onto the same or different targets (Saunders et al 2015).…”
Section: Discussionmentioning
confidence: 99%
“…This makes it possible for terminals to co-release (or co-transmit) neurotransmitters onto the same or different targets (Saunders et al 2015). In addition, the sorting of these molecules is also subject to plasticity (see Samano et al 2012), which may also contribute to observations of activity-dependent changes in expression levels (De Gois et al 2005). While presently unknown for TC and CC projections in the auditory forebrain, these findings suggest that some neurons may possess the machinery needed to route transmitters and other molecules to different terminal processes in a dynamic manner.…”
Section: Discussionmentioning
confidence: 99%
“…Homosynaptic plasticity can also involve interactions of multiple transmitters as the same neuron may contain multiple cotransmitters. For instance, neuropeptides can potentiate the PSPs elicited by a classic transmitter contained in the same neuron (e.g., Fox and Lloyd 2001;Koh and Weiss 2005;Sámano et al 2012). Also, the same neuron can contain multiple classic transmitters.…”
mentioning
confidence: 99%
“…This "modern version of Dale`s principle" claimed that neurons release the same set of transmitters from all of their axon processes, assuming that the identity of the transmitters expressed by neurons is unchanging. Nevertheless, recent discoveries [16,17,18] demonstrate that electrical activity can respecify neurotransmitter expression during development, but also in mature nervous system. The logical question that arises is what happens with postsynaptic receptors if the identity of presinaptically created neurotransmitter changes.…”
Section: Lost In Translationmentioning
confidence: 99%