The pain that follows nerve injury is chronic and consistently refractory to available analgesics. These neuropathic pain syndromes include deafferentation pain, diabetic, cancer and ischemic neuropathies, phantom limb pain, trigeminal neuralgia, postherpetic neuralgias and nerve injury caused by surgery or trauma. Neuropathic pain is not only chronic and intractable, it is debilitating and causes extreme physical, psychological and social distress. The broad, long- term objective pf our research is to elucidate spinal neuroimmune mechanisms responsible for the generation and maintenance of neuropathic pain. This knowledge will enable development of new medications to treat neuropathic pain without the added liability of drug abuse. Research completed in the previous funding period provides substantial data to support the role of central nervous system (CNC) cytokines in persistent neuropathic pain states. We propose to extend our studies to address the unifying hypothesis that chronic pain following peripheral nerve injury is maintained by central neuroimmune/neuroinflammatory mechanisms. The central hypothesis is that peripheral nerve injury causes an inappropriate CNS expression of Major Histocompatibility Complex (MHC) Class II and cellular adhesion molecules which leads to an imbalance of proinflammatory cytokines and immune mediators that manifests as persistent neuropathic pain. This hypothesis will be tested using the following Specific Aims: 1) Assess the role of spinal MHC Class II and cellular adhesion molecule expression in nerve injury and acute inflammatory animal models; 2) Determine whether activated T-cells or macrophages are recruited into the CNS in response to a peripheral nerve injury; 3) Continue to evaluate the potential for global or specific immunosuppressive therapy yo alter sensory nociceptive processing; 4) Determine the effect of the above immunosuppressive therapy on spinal proinflammatory cytokines, MHC Class II and CAM expression. Immunocytochemistry, in situ hybridiazation, ELISA, RNS protection assays, specific pharmacological agents and noncieptive behavioral assays will be used to resolve these specific aims. When completed, these studies will provide: a) Information o the kinetics of spinal MHC class II and CAM expression following peripheral nerve injury and acute intraplantar inflammation, b) Data on the recruitment of immune cells into the CNS in response to nerve injury; c) Preliminary data to support new pharmacological approaches to the treatment of clinical neuropathic pain; d) a foundation for further understanding the neuroimmune response of nerve injury and the relationship to other central nervous systems inflammatory disease states e) Data to guide future studies that evaluate the role of cytokines and neuroimmune activation in chronic pain.
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