“Neuropathy is a different type of pain than the pain that acts as a warning system that something has or may injure the body. For instance, if you touch a hot stove, the pain will make you pull away immediately, protecting the body from a serious burn,” said last and co-corresponding author Dr. Kimberley F. Tolias, professor in the departments of neuroscience and biochemistry and molecular biology at Baylor. “Neuropathy, on the other hand, is on-going, long-lasting and not helpful to the body.”
Neuropathy patients experience hypersensitivity or extreme sensitivity to pain. “Situations that are not normally painful, become painful, and those that are a bit painful become very painful,” Tolias said.
Neuropathic Pain: New Treatment
Previous studies have shown that pain hypersensitivity emerges from structural and functional changes that occur in the spinal cord. Some of these changes involve alterations in the synapses, the physical connections between neurons, cells that transmit nerve signals. Functionally, the ability to inhibit synapses is reduced while they are more easily excited. Structurally, there is an increase in size and density of the dendritic spines, primary structures involved in establishing synaptic connections. These changes account for the long-term nature of neuropathic pain. However, although the physical and functional changes in the spinal cord are clear, the mechanisms controlling their implementation and persistence in neuropathic pain remained a mystery.
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“In this study we discovered that the gene Tiam1, which is known to regulate normal synapse development, also plays a central role in establishing the structural and functional changes in synapses that lead to neuropathy,” Tolias said.
Importantly, treating animals having the condition with antisense oligonucleotides (ASO) that inhibited Tiam1 activity eliminated the structural and functional changes in the spinal cord as well as neuropathic pain. ASOs are small stretches of modified DNA that are commonly used to reduce the amount of a specific protein in the body (Tiam1 in this case) by interfering with the process that produces the protein. ASOs are already in clinical use to treat other diseases.
“We are excited about these findings,” said first and co-corresponding author Dr. Lingyong Li, associate professor of anesthesiology and perioperative medicine at the University of Alabama. “We discovered that Tiam1 is at the core of a mechanism that underlies neuropathic pain triggered by different types of injuries or diseases. Altogether, our results suggest that regulating Tiam1’s activity could provide an effective strategy to treat neuropathic pain in the clinic.”
Other contributors to this work include Qin Ru, Yungang Lu, Xing Fang, Guanxing Chen, Ali Bin Saifullah and Changqun Yao. The authors are affiliated with one or more of the following institutions: Baylor College of Medicine, University of Alabama at Birmingham, Jianghan University – China and the University of Texas MD Anderson Cancer Center.
This work was supported by grants from the Department of Defense W81XWH-20-10790, the National Institutes of Health grant NS124141 and NS062829 and the Mission Connect/TIRR Foundation.
Source: Eurekalert
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