Dopamine and Noradrenaline in the Brain; Overlapping or Dissociate Functions?
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Date
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Ranjbar Slamloo, Yadollah
Fazlali, Zeinab
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Frontiers Research Foundation
Abstract
Dopamine and noradrenaline are crucial neuromodulators controlling brain states,
vigilance, action, reward, learning, and memory processes. Ventral tegmental area
(VTA) and Locus Coeruleus (LC) are canonically described as the main sources of
dopamine (DA) and noradrenaline (NA) with dissociate functions. A comparison of
diverse studies shows that these neuromodulators largely overlap in multiple domains
such as shared biosynthetic pathway and co-release from the LC terminals, convergent
innervations, non-specificity of receptors and transporters, and shared intracellular
signaling pathways. DA-NA interactions are mainly studied in prefrontal cortex and
hippocampus, yet it can be extended to the whole brain given the diversity of
catecholamine innervations. LC can simultaneously broadcast both dopamine and
noradrenaline across the brain. Here, we briefly review the molecular, cellular, and
physiological overlaps between DA and NA systems and point to their functional
implications. We suggest that DA and NA may function in parallel to facilitate
learning and maintain the states required for normal cognitive processes. Various
signaling modules of NA and DA have been targeted for developing of therapeutics.
Understanding overlaps of the two systems is crucial for more effective interventions in
a range of neuropsychiatric conditions.
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Frontiers in Molecular Neuroscience
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Open Access
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Creative Commons Attribution License (CC BY)