This effect occurred even after the IL-4 treatment had stopped. These opioids activated peripheral opioid receptors in the surrounding tissue and improved the hypersensitivity associated with nerve injury. The researchers found that IL-4 encouraged M2 macrophages to produce opioids continuously to relieve pain. The study team isolated these M2 macrophages, injected them into different mice, and measured the pain response afterward. On closer inspection, this appeared to result from IL-4 not only attracting macrophages to the injury site but also transforming these immune cells from the pro-inflammatory M1 type to the anti-inflammatory M2 variety that released pain-relieving opioids to the damaged tissue. The researchers found that injections could reduce pain in the mice for up to 8 days, even after treatment had stopped. Someone who was not involved in the study randomly placed the mice in cages.Įach treatment had a code, and different members of the team were responsible for making the treatment, administering it to the mice, and analyzing the data, so none of the researchers knew at the time which animal received which treatment. They blinded the study to prevent the researchers’ own bias from influencing the results. After treatment, the researchers observed the rodents’ reaction to heat and pressure, comparing the hind paws with the uninjured front paws. The researchers gave the mice a single injection of IL-4 14 days after the injury and continued the treatment for a week.īefore the treatment, the animals’ hind paws were sensitive to heat and mechanical stimulation because of their nerve injury. They used male laboratory-reared mice with a nerve injury that mimicked sciatic pain as a model for human neuropathy-induced pathological pain. The researchers used a mouse model to study the analgesic action of IL-4. Halina Machelska from Charité – Universitätsmedizin in Berlin, Germany, and her team investigated how a cell-signaling anti-inflammatory protein called interleukin-4 (IL-4) encourages macrophages to produce pain-relieving opioid peptides at the site of inflammation. These include beta-endorphin, Met-enkephalin, and dynorphin A, which can all reduce pain in animals.
Previous studies have shown that immune cells such as lymphocytes, neutrophils, and macrophages can release opioid peptides. When the nerve tissue sustains damage, immune cells gather around the affected nerves in response to the injury.
Neuropathic pain is associated with inflammation around the nerve tissue. For example, taking opioid pain relievers can cause nausea and constipation, and there is also the risk of these drugs becoming addictive. Sometimes, these treatments can also come with unwanted side effects.
Healthcare professionals may offer a variety of treatments, including antidepressants, opioid pain relievers, and lifestyle changes, but neuropathic pain can often be resistant to treatment. To compound the problem, this pain is difficult to treat effectively, and it is associated with significant impairments in health-related quality of life. In the United States, more than 20 million people have some form of peripheral neuropathy. Previous research in the United Kingdom estimated that 8% of the population experience neuropathic pain. It is easy for clinicians to misdiagnose neuropathy, as there is no “gold standard” diagnostic test, and people with the condition experience a wide variety of symptoms, with pain manifesting in different areas of the body. This condition can develop even when there is no obvious cause, and it may appear some time after the initial injury or infection. Usually, pain occurs in the hands and feet, but it can also affect other areas of the body. People with neuropathy can experience different levels of pain, from tingling and numbness to debilitating burning and shooting pains. When a person injures their nerves, either through trauma, infection, or exposure to drugs or toxins, they can develop neuropathic pain, or neuropathy.
The new paper appears in the Journal of Clinical Investigation Insight. Share on Pinterest The results of new research may have implications for managing pain in immune-mediated diseases, such as arthritis.
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