Abstract
Accumulating evidence suggests a key role of the gut–microbiota–brain axis in the antidepressant actions of certain compounds. Ketamine, an N-methyl-D-aspartate receptor (NMDAR) antagonist, showed rapid and sustained antidepressant effects in treatment-resistant depressed patients. In contrast, another NMDAR antagonist, lanicemine, did not exhibit antidepressant effects in such patients. (R)-ketamine, the (R)-enantiomer of ketamine, has rapid-acting and long-lasting antidepressant effects in rodent models of depression. Here we compared the effects of (R)-ketamine and lanicemine on depression-like phenotype and the composition of the gut microbiota in susceptible mice after chronic social defeat stress (CSDS). In behavioral tests, (R)-ketamine showed antidepressant effects in the susceptible mice, whereas lanicemine did not. The 16S ribosomal RNA gene sequencing of feces demonstrated that (R)-ketamine, but not lanicemine, significantly attenuated the altered levels of Bacteroidales, Clostridiales and Ruminococcaceae in the susceptible mice after CSDS. At the genus level, (R)-ketamine significantly attenuated the marked increase of Clostridium in the susceptible mice. In contrast, the effects of lanicemine were less potent than those of (R)-ketamine. This study suggests that the antidepressant effects of (R)-ketamine might be partly mediated by the restoration of altered compositions of the gut microbiota in a CSDS model.
Highlights
Ketamine is an N-methyl-D-aspartate receptor (NMDAR) antagonist
A previous study showed that inhibitory effects on in vivo [3H]MK-801 binding in the mouse brain by ketamine (10 mg/kg) and lanicemine (10 mg/kg) were the same[35]
Unlikely that NMDAR inhibition may play a role in the differential effects of (R)-ketamine and lanicemine a further study is needed
Summary
The major findings of the present study are as follows: First, (R)-ketamine showed rapid and sustained antidepressant effects in a CSDS model of depression. (R)-ketamine significantly attenuated the increased levels of Clostridium, the genus of bacteria, in the susceptible mice the effects of lanicemine were less potent than (R)-ketamine. These findings suggest that altered composition of gut microbiota in the CSDS susceptible mice might play a role in the depression-like phenotype, and that the improvement of the altered composition of gut microbiota in the susceptible mice by (R)-ketamine might play, in part, a role in its rapid antidepressant effect. Further studies on the role of the order Clostridiales, including the genus Clostridium, in depression and antidepressant actions of (R)-ketamine are needed. The present study suggests that the gut microbiota–brain axis might be associated with the antidepressant actions of (R)-ketamine, namely via (R)-ketamine-induced changes in the levels of the order Bacteroidales, Clostridiales; the family Ruminococcaceae, Mogibacteriaceae; and the genus Clostridium
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