Nerve injury triggers time-dependent activation of the locus coeruleus, influencing spontaneous pain-like behavior in rats.

BACKGROUND: Dynamic changes in neuronal activity and in noradrenergic locus coeruleus (LC) projections have been proposed during the transition from acute to chronic pain. Thus, we explored the cellular cFos activity of the LC and its projections, in conjunction with spontaneous pain-like behavior in neuropathic rats.

METHODS: Tyrosine hydroxylase:Cre and wild-type Long-Evans rats, males and females, were subjected to chronic constriction injury (CCI) for 2 (short-term, CCI-ST) or 30 days (long-term, CCI-LT), evaluating cFos and Fluoro-Gold expression in the LC, and its projections to the spinal cord (SC) and rostral anterior cingulate cortex (rACC). These tests were carried out under basal conditions (unstimulated) and following noxious mechanical stimulation. LC activity was evaluated through chemogenetic and pharmacological approaches, as were its projections, in association with spontaneous pain-like behaviors.

RESULTS: CCI-ST enhanced basal cFos expression in the LC and in its projection to the SC, which increased further after noxious stimulation. Similar basal activation was found in the neurons projecting to the rACC, although this was not modified by stimulation. Strong basal cFos expression was found in CCI-LT, specifically in the projection to the rACC, which was again not modified by stimulation. No cFos expression was found in the CCI-LT LCipsi/contra→SC. Chemogenetics showed that CCI-ST is associated with greater spontaneous pain-like behavior when the LCipsi is blocked, or by selectively blocking the LCipsi→SC projection. Activation of the LCipsi or LCipsi/contra→SC dampened pain-like behavior. Moreover, DREADDs-mediated inactivation of the CCI-ST LCipsi→rACC or CCI-LT LCipsi/contra→rACC pathway, or intra-rACC antagonism of alpha-adrenoreceptors, also dampens pain-like behavior.

CONCLUSIONS: In the short term, activation of the LC following CCI attenuates spontaneous pain-like behaviors via projections to the SC while increases nociception via projections to the rACC. In the long term, only the projections from the LC to the rACC contribute to modulate pain-like behaviors in this model.