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Ketamine Rescues Hippocampal Reelin Expression and Synaptic Markers in the Repeated-Corticosterone Chronic Stress Paradigm

Jenessa N. Johnston, Jonathan S. Thacker, Charissa Desjardins, Brian D. Kulyk, Raquel Romay-tallon, Lisa E. Kalynchuk, Hector J. Caruncho

Frontiers in Pharmacology September 2, 2020 Peer reviewed DOI: 10.3389/fphar.2020.559627 via DOAJ

Summary

Ketamine significantly modulates reelin expression and can restore synaptic levels of mTOR and p-mTOR that were reduced by corticosterone in adult male rats. While both reelin and ketamine improved synaptic expression, only reelin affected serotonin transporter clustering in peripheral lymphocytes. These results suggest that reelin may play a crucial role in the fast-acting antidepressant effects observed with ketamine.

Study at a glance

Population adult male rats
Key finding Ketamine restores synaptic expression of mTOR and p-mTOR decreased by corticosterone, but only reelin affects serotonin transporter clustering in peripheral lymphocytes.

Abstract

Depression is the leading cause of disability worldwide, which necessitates novel therapeutics and biomarkers to approach treatment of this neuropsychiatric disorder. To assess potential mechanisms underlying the fast-acting antidepressant actions of ketamine we used a repeated corticosterone paradigm in adult male rats to assess the effects of ketamine on reelin-positive cells, a protein largely implicated in the pathophysiology of depression. We also assessed the effects of reelin and ketamine on hippocampal and cerebellar synpatosomes, and on serotonin transporter clustering in peripheral lymphocytes to determine reelin and ketamine’s impact at the synaptic and peripheral levels. Reelin and ketamine similarly rescue synaptic expression of mTOR and p-mTOR that were decreased by corticosterone. Reelin, but not ketamine, was able to rescue patterns of serotonin transporter clustering in the periphery. These findings display ketamine as a powerful modulator of reelin expression and lend strength to further evaluation of the putative fast antidepressant-like actions of reelin.

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