By Lawrence Tabak/NIH Director's Blog
Chronic pain is an often debilitating health condition and a serious public health concern, affecting more than 50 million Americans. The opioid and overdose crisis, which stems from inadequate pain treatment, continues to have a devastating impact on families and communities across the country. To combat both challenges, we urgently need new ways to treat acute and chronic pain effectively without the many downsides of opioids.
While there are already multiple classes of non-opioid pain medications and other approaches to manage pain, unfortunately, none have proved as effective as opioids when it comes to pain relief. So, I’m encouraged to see that an NIH-funded team now has preclinical evidence of a promising alternative target for pain-relieving medicines in the brain.
Rather than activating opioid receptors, the new approach targets receptors for a nerve messenger known as acetylcholine in a portion of the brain involved in pain control. Based on findings from animal models, it appears that treatments targeting acetylcholine could offer pain relief even in people who have reduced responsiveness to opioids. Their findings suggest that the treatment approach has the potential to remain effective in combatting pain long-term and with limited risk for withdrawal symptoms or addiction.
The researchers, led by Daniel McGehee, University of Chicago, focused their attention on non-opioid pathways in the ventrolateral periaqueductal gray (vlPAG), a brain area involved in pain control. They had previously shown that activating acetylcholine receptors, which are part of the vlPAG’s underlying circuitry, could relieve pain. However, they found that when the body is experiencing pain, it unexpectedly suppresses acetylcholine rather than releasing more.
To understand how and why this is happening, McGehee and Shivang Sullere, now a postdoctoral fellow at Harvard Medical School, conducted studies in mice to understand how acetylcholine is released under various pain states. They found that mice treated with a drug that stimulates an acetylcholine receptor known as alpha-7 (⍺7) initially led to more activity in the nervous system. But this activity quickly gave way to a prolonged inactive or quiet state that delivered pain relief. Interestingly, this unexpected inhibitory effect lasted for several hours.
Read more on the NIH Director's blog.