Trace Amines and Trace Amine-Associated Receptors: A New Frontier in Cell Signaling.

Trace Amines and Trace Amine-Associated Receptors: A New Frontier in Cell Signaling. Cell Mol Neurobiol. 2020 Jan 31;: Authors: Freyberg Z, Saavedra JM Abstract Trace amines, including β-phenylethylamine, p-octopamine, p-tyramine, and tryptamine, are produced in high levels in invertebrates where they play major roles in homeostasis regulation in a manner similar to that of adrenergic systems in mammals (Rutigliano et al. in Front Pharmacol 8:987, 2017; Gainetdinov et al. in Pharmacol Rev 70(3):549-620, 2018; Nagaya et al. in Neurosci Lett 329(3):324-328, 2002). In mammals, however, their levels are very low, initially prompting these molecules to be termed "trace" or "minor" amines in mammals with only a secondary role in the regulation of more abundant biogenic amines including catecholamines and serotonin (Gainetdinov et al. in Pharmacol Rev 70(3):549-620, 2018). The more recent discovery of trace amine-associated receptors (TAARs) revealed major, previously unsuspected roles of the trace amines and has led to increasing interest within the scientific community. For example, TAARs have been proposed to modulate signaling through dopamine (Schwartz et al. in Expert Opin Ther Targets 22(6):513-526, 2018). Furthermore, these receptors are implicated in both numerous physiological functions including regulation of sleep, olfaction, metabolism, and immunity as well in disease (e.g., substance abuse, neuropsychiatric disorders) (Gainet...
Source: Cellular and Molecular Neurobiology - Category: Cytology Authors: Tags: Cell Mol Neurobiol Source Type: research