Abstract
Descending noradrenergic inhibition to the spinal cord from the locus coeruleus (LC) is an important endogenous pain-relief mechanism which can be activated by local glutamate signaling. Here we tested whether dysregulation of extracellular glutamate level in the LC induced by down-regulating astroglial glutamate transporter-1(GLT-1) impairs endogenous analgesia. In rats treated with repeated LC injections of GLT-1 selective or non-targeting small interfering RNA (siRNA), a subdermal injection of capsaicin was used to examine noxious stimulation-induced analgesia (NSIA), evoked LC glutamate and spinal noradrenaline release, and evoked LC neuronal activity. LC-injected GLT-1 siRNA reduced expression of GLT-1 in the LC (P=0.02), increased basal activity of LC neurons (P<0.01), and increased basal extracellular concentrations of LC glutamate (P<0.01) and spinal noradrenaline (P<0.01), but did not affect mechanical withdrawal thresholds in the hindpaw (P=0.83), compared to non-targeting siRNA. LC-injected GLT-1 siRNA impaired capsaicin-evoked release of LC glutamate and spinal noradrenaline, capsaicin-evoked LC neuronal activation, and NSIA. These results suggest that astroglial GLT-1 is essential to normal LC function and that increased extracellular glutamate by down-regulating GLT-1 impairs evoked LC activity and NSIA, essentially taking the LC "off-line".