Fighting Depression: Ketamine Metabolite May Offer Benefits Without the Risks
Posted on by Dr. Francis Collins
For people struggling with severe depression, antidepressants have the potential to provide much-needed relief, but they often take weeks to work. That’s why there is growing excitement about reports that the anesthetic drug ketamine, when delivered intravenously in very low doses, can lift depression and suicidal thoughts within a matter of hours. Still, there has been reluctance to consider ketamine for widespread treatment of depression because, even at low doses, it can produce very distressing side effects, such as dissociation—a sense of disconnection from one’s own thoughts, feelings, and sense of identity. Now, new findings suggest there may be a way to tap into ketamine’s depression-fighting benefits without the side effects.
In a mouse study published in the journal Nature, an NIH-funded research team found that the antidepressant effects of ketamine are produced not by the drug itself, but by one of its metabolites—a substance formed as the body breaks ketamine down. What’s more, the work demonstrates that this beneficial metabolite does not cause the risky dissociation effects associated with ketamine. While further development and subsequent clinical trials are needed, the findings are a promising step toward the development of a new generation of rapid-acting antidepressant drugs.
- Click to share on LinkedIn (Opens in new window)
- Click to share on Pinterest (Opens in new window)
- Click to share on Tumblr (Opens in new window)
- Click to share on Reddit (Opens in new window)
- Click to share on Telegram (Opens in new window)
- Click to share on WhatsApp (Opens in new window)
- Click to share on Skype (Opens in new window)
- Click to print (Opens in new window)
Tags: AMPA receptors, antidepressant medication, antidepressants, depression, drug discovery, drug side effects, glutamate, glutamate receptor, HNK, hydroxynorketamine, ketamine, mental health, mental illness, metabolite, mood disorder, nerve cells, neurology, NMDA, NMDAR, severe depressive disorders