CGRP receptor antagonist MK-8825 attenuates cortical spreading depression induced pain behavior.

BACKGROUND AND OBJECTIVE: The present study aimed to investigate the effects of selective calcitonin gene related peptide (CGRP) receptor antagonist (MK-8825) on cortical spreading depression (CSD) induced pain behavior and anxiety in freely-moving rats, and neuronal activation in the correlated anatomical regions. METHODS: CSD was induced while keeping all meningeal layers and BBB intact and MK-8825 was administered in two different doses. Regional cerebral blood flow (rCBF), arterial pressure and DC shift were recorded. Behavioral studies were conducted in freely-moving rats. Spontaneous behavior, mechanical allodynia, ultrasonic vocalization, and anxiety were evaluated. Immunohistochemistry of c-fos, CGRP, calcitonin receptor like-receptor (CLR) and receptor activity modifying protein 1 (RAMP1) were studied. RESULTS: MK-8825 did not block DC shifts in the cerebral cortex and accompanied hemodynamic response. CSD significantly induced freezing and grooming behavior in freely-moving rats. MK-8825 reversed increased episodes of freezing, grooming, wet dog shake and head shake behavior. MK-8825 increased CSD-induced reductions in von Frey thresholds, but did not change elevated plus maze results. MK-8825 blocked c-fos induction by CSD in the brainstem trigeminal nucleus caudalis (TNC) and reticular nucleus of thalamus (TRN) but not in the amygdala. Immunofluorescence analysis showed no co-localization of CGRP, CLR or RAMP1 with c-fos positive cells. CONCLUSION: CGRP receptor antagonist MK-8825 dose dependently attenuated CSD-induced trigeminal nerve mediated pain response without altering CSD waves and accompanied rCBF response. While blocking TNC activation, MK-8825 did not exert any effect on amygdala and anxiety behavior. CGRP receptor antagonists may also modulate thalamo-cortical gating.

The thalamic reticular nucleus is activated by cortical spreading depression in freely moving rats: prevention by acute valproate administration.

This study investigated the effect of repetitive cortical spreading depression (CSD) on behaviour and the anatomical and physiological patterns of cellular activation of cortical and subcortical areas in awake, moving rats. Rat behaviours in response to repetitive CSD events evoked by the application of KCl were quantified with electrophysiological recording. Immunohistochemistry was used to quantify anatomical regions of cellular activation. The effects of acute valproic acid administration on the behavioural parameters and cellular activation were evaluated. CSD significantly decreased locomotor activity and induced freezing in awake, moving rats, and stimulated c-Fos expression in the cortex, trigeminal nucleus caudalis (TNC), and amygdala. CSD also resulted in a prominent increase in c-Fos expression in the ipsilateral thalamic reticular nucleus (TRN) visual sector. Electrophysiological recordings revealed propagation of CSD into the TRN. Valproic acid pretreatment decreased the duration of CSD-induced freezing episodes and reversed the CSD-induced reduction in locomotor activity. Acute valproic acid administration also significantly blocked CSD-induced c-Fos expression in the TNC and TRN. These findings show that CSD events cause consistent behavioural responses and activate specific brain regions in awake, freely moving rats. Selective activation of TRN by CSD and the suppression of this activation by valproic acid suggest that this brain region may play an important role in migraine pathogenesis and may represent a novel target for migraine therapy.