Abstract
BackgroundPeripheral nerve injury (PNI) is a public health concern that results in sensory and motor disorders as well as neuropathic pain and secondary lesions. Currently, effective treatments for PNI are still limited. For example, while nerve growth factor (NGF) is widely used in the treatment of PNI to promote nerve regeneration, it also induces pain. Maresin 1 (MaR1) is an anti-inflammatory and proresolving mediator that has the potential to regenerate tissue. We determined whether MaR1 is able to promote nerve regeneration as well as alleviating neuropathic pain, and to be considered as a putative therapeutic agent for treating PNI.MethodsPNI models were constructed with 8-week-old adult male ICR mice and treated with NGF, MaR1 or saline by local application, intrathecal injection or intraplantar injection. Behavioral analysis and muscle atrophy test were assessed after treatment. Immunofluorescence assay was performed to examine the expression of ATF-3, GFAP, IBA1, and NF200. The expression transcript levels of inflammatory factors IL1β, IL-6, and TNF-α were detected by quantitative real-time RT-PCR. AKT, ERK, mTOR, PI3K, phosphorylated AKT, phosphorylated ERK, phosphorylated mTOR, and phosphorylated PI3K levels were examined by western blot analysis. Whole-cell patch-clamp recordings were executed to detect transient receptor potential vanilloid 1 (TRPV1) currents.ResultsMaR1 demonstrated a more robust ability to promote sensory and motor function recovery in mice after sciatic nerve crush injury than NGF. Immunohistochemistry analyses showed that the administration of MaR1 to mice with nerve crush injury reduced the number of damaged DRG neurons, promoted injured nerve regeneration and inhibited gastrocnemius muscle atrophy. Western blot analysis of ND7/23 cells cultured with MaR1 or DRG neurons collected from MaR1 treated mice revealed that MaR1 regulated neurite outgrowth through the PI3K–AKT–mTOR signaling pathway. Moreover, MaR1 dose-dependently attenuated the mechanical allodynia and thermal hyperalgesia induced by nerve injury. Consistent with the analgesic effect, MaR1 inhibited capsaicin-elicited TRPV1 currents, repressed the nerve injury-induced activation of spinal microglia and astrocytes and reduced the production of proinflammatory cytokines in the spinal cord dorsal horn in PNI mice.ConclusionsApplication of MaR1 to PNI mice significantly promoted nerve regeneration and alleviated neuropathic pain, suggesting that MaR1 is a promising therapeutic agent for PNI.
Highlights
Peripheral nerve injury (PNI) is a public health concern that results in sensory and motor disorders as well as neuropathic pain and secondary lesions
Maresin 1 (MaR1) reduced dorsal root ganglion (DRG) neuronal damage and promoted nerve path reconstruction after nerve injury we examined whether MaR1 could attenuate DRG neuronal damage induced by nerve crush injury in mice
MaR1 promoted nerve growth via the PI3K–AKT–mTOR signaling pathway To assess the mechanisms underlying the analgesic effect of MaR1 in PNI, we examined its influence on the basic pain thresholds of naïve mice and compared it with that of nerve growth factor (NGF)
Summary
Peripheral nerve injury (PNI) is a public health concern that results in sensory and motor disorders as well as neuropathic pain and secondary lesions. While nerve growth factor (NGF) is widely used in the treatment of PNI to promote nerve regeneration, it induces pain. The use of appropriate cytokines to protect damaged neurons and promote axonal regeneration has always been an important strategy in the study of nerve regeneration. Since NGF plays two roles in the treatment of PNI, improving nerve regeneration but accelerating neuropathic pain, the discovery of novel cytokine(s) or drug molecular(s) that can protect injured neurons, promote axonal regeneration, and inhibit neuropathic pain in the treatment of PNI is a very urgent and important task
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