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Rapid-Acting Antidepressants.

BackgroundConventional antidepressants are thought to produce their impact on clinical symptoms by increasing the central availability of biogenic amine neurotransmitters (the monoamine hypothesis of depression). These drugs continue to be the primary medicines used in major depressive disorder. Although they have biological effects after acute dosing, full antidepressant response generally takes weeks of daily administration. Lack of rapid onset is a large limitation in antidepressant therapy (e.g., suicide, lack of medication compliance, difficulty switching medications).MethodsThe present review of the literature discusses the preclinical and clinical findings on compounds that can produce immediate symptom relief.ResultsThese compounds include ketamine, scopolamine, and mechanistically-related drugs. Newer additions to the list of potential rapid-acting agents include antagonists of metabotropic (mGlu) 2/3 receptors, negative allosteric modulators of α5-containing GABAA receptors, and psychedelic compounds. An additional benefit of these compounds is that they have demonstrated large effect sizes and, importantly, demonstrated efficacy in patient's refractory to other treatments. A drawback of some of these compounds, to date, is finding ways to expand the duration of clinical efficacy. In addition, for some compounds, the side-effect profile requires management. A primary mechanism by which rapid effects might be produced is through the amplification of excitatory neurotransmission through activation of AMPA receptors. The extracellular efflux of glutamate induced by these drugs has been documented and provides the hypothesized triggering mechanism for AMPA receptor amplification.ConclusionThe preclinical and clinical literature strongly suggests that rapid-acting antidepressants are the current focus of antidepressant drug discovery. Promising clinical findings exist for several compounds including ketamine and other NMDA receptor antagonists, scopolamine, and psilocybin. Two compounds are in late stage clinical development: GLYX-13 (Rapastinel) and eskekamine.

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Journal
Unknown
Date
2017-12-31
Source
Europe PMC
DOI
10.2174/1381612824666180730104707
PubMed
30058481

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