Neuropathic pain is a condition characterized by unpleasant sensory and emotional experiences associated with a number of diseases or injuries affecting the sensory system through various mechanisms. In this study, we focused on the impact of chronic neuropathic pain on the microglial state and hippocampal neurogenesis in aged mice. In addition, we examined the effects of alkyl glycerol ethers (AGE) treatment on behavioral parameters, hippocampal neuronal and microglial plasticity in aged C57BL/6 mice with neuropathic pain. For the induction of neuropathic pain, we used the model of chronic constriction injury (CCI) of the sciatic nerve. We observed painful behavior in animals subjected to CCI, expressed as a decrease in locomotor activity and the development of cold allodynia. A violation of working and long-term memory was also observed. AGE administration reduced the severity of cold allodynia and prevented memory impairment. In addition to behavioral changes, neuropathic pain was accompanied by microglial activation, changes in the hippocampal production of pro- and anti-inflammatory cytokines, as well as a decrease in neurogenesis. The administration of AGE prevented the neuropathic pain-derived effects, including M1 microglial activation and neurogenesis disruption. However,
in vitro
experiments demonstrated the pro-inflammatory activation of microglial cells, emphasizing the complexity of the mechanisms underlying the pharmacological effects of AGE. On the whole, the findings of this study demonstrate that AGE treatment prevented behavioral effects of neuropathic pain in mice, and AGE may thus have potential for use in the prevention or treatment of neuropathic pain cognitive and emotional effects. However, as the mechanisms underlying this type of pain are complex, further studies are required to determine the detailed pharmacological effects of AGE.
At present, there is a growing interest in the study of the neurotropic activity of polyunsaturated fatty acid ethanolamides (N-acylethanolamines). N-docosahexaenoylethanolamine (DHEA), or synaptamide, an endogenous metabolite of docosahexaenoic acid, is a promising compound with anti-inflammatory activity. The results of this study demonstrate that synaptamide, when administered subcutaneously (4 mg/kg/day, 35 days), promotes a decrease in cold allodynia and mechanical hyperalgesia in a rat sciatic nerve chronic constriction injury (CCI) model. After CCI, synaptamide treatment enhanced the remyelination process in the site of sciatic nerve injury (33.4 ± 1.1% in the CCI+Syn group, compared to 28.4 ± 0.9% in the CCI group). Further, synaptamide suppressed the CCI-induced increase in the activity of microglia (13.1 ± 0.5% in CCI+Syn, compared to 15.3 ± 0.7% in the CCI group) and the number of nitric oxide synthase-positive neurons (58,307 ± 5,206 cells/mm<sup>3</sup> in CCI+Syn, compared to 80,288 ± 4,287 cells/mm<sup>3</sup> in the CCI group) in the dorsal horns of the spinal cord, and also reduced the concentration of interleukin 1 beta in the spinal cord (169.3 ± 4 pg/mg of protein in CCI+Syn, compared to 236.9 ± 9.3 pg/mg of protein in CCI group) 35 days after surgery. Synaptamide treatment resulted in decrease of reactive astrogliosis in the spinal cord dorsal horns to 20.8 ± 1.3%, which occurred simultaneously with a decrease in the substance P (SP) level (9.8 ± 0.5%) compared to vehicle-treated animals (30.2 ± 2.2% and 13.4 ± 0.9% of astroglia and SP staining area, respectively). In addition, synaptamide increased superoxide dismutase activity up to 68.6 ± 0.8% (control 50.6 ± 0.9%) in astrocyte culture. Thus, synaptamide provides anti-inflammatory and neuroprotective effects in both peripheral and central nervous system after sciatic nerve injury.
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