Regulation of interleukin-1beta by the interleukin-1 receptor antagonist in the glutamate-injured spinal cord: endogenous neuroprotection.

Elevation of extracellular glutamate contributes to cell death and functional impairments generated by spinal cord injury (SCI), in part through the activation of the neurotoxic cytokine interleukin-1beta (IL-1beta). This study examines the participation of IL-1beta and its regulation by the endogenous interleukin-1 receptor antagonist (IL-1ra) in glutamate toxicity following SCI. Glutamate, glutamatergic agonists and SCI had similar effects on levels of IL-1beta and IL-1ra. Following spinal cord contusion or exposure to elevated glutamate, concentrations of IL-1beta first increased as IL-1ra decreased, and both then changed in the opposite directions. Applying the glutamate agonists NMDA and S-AMPA to the spinal cord caused changes in IL-1beta and IL-1ra levels very similar to those produced by contusion and glutamate. The glutamate antagonists MK801 and NBQX blocked the glutamate-induced changes in IL-1beta and IL-1ra levels. Administering IL-1beta elevated IL-1ra, and administering IL-1ra depressed IL-1beta levels. Infusing IL-beta into the spinal cord impaired locomotion, and infusing IL-1ra improved recovery from glutamate-induced motor impairments. We hypothesize that elevating IL-1ra opposes the damage caused by IL-1beta in SCI by reducing IL-1beta levels as well as by blocking binding of IL-1beta to its receptor. Our results demonstrate that IL-1beta contributes to glutamate damage following SCI; blocking IL-1beta may usefully counteract glutamate toxicity.