Abstract
Systemic nitroglycerin (NTG) activates brain nuclei involved in nociceptive transmission as well as in neuroendocrine and autonomic functions in rats. These changes are considered relevant for migraine because NTG consistently provokes spontaneous-like migraine attacks in migraineurs. Several studies have suggested a relationship between the endocannabinoid levels and pain mediation in migraine. URB937, a peripheral inhibitor of fatty acid amide hydrolase (FAAH)-the enzyme that degrades anandamide, produces analgesia in animal models of pain, but there is no information on its effects in migraine. We evaluated whether URB937 alters nociceptive responses in the animal model of migraine based on NTG administration in male rats, using the tail flick test and the plantar and orofacial formalin tests, under baseline conditions and after NTG administration. Furthermore, we investigated whether URB937 affects NTG-induced c-Fos expression in the brain. During the tail flick test, URB937 showed an antinociceptive effect in baseline conditions and it blocked NTG-induced hyperalgesia. URB937 also proved effective in counteracting NTG-induced hyperalgesia during both the plantar and orofacial formalin tests. Mapping of brain nuclei activated by NTG indicates that URB937 significantly reduces c-Fos expression in the nucleus trigeminalis caudalis and the locus coeruleus. The data suggest that URB937 is capable of changing, probably via indirect mechanisms, the functional status of central structures that are important for pain transmission in an animal model of migraine.
Highlights
Numerous lines of evidence suggest the existence of a state of trigeminal sensitization in migraineurs, which results in hyperalgesia, allodynia, and cognitive dysfunction during and between episodes [1,2]
We evaluated the antinociceptive effects of URB937 in animal models of hyperalgesia and neuronal activation associated with NTG administration as a way of probing the potential antimigraine effect of URB937
DMSO in association with NTG produced a significant reduction in nocifensive behavior in Phase II (NTG þ DMSO group vs NTG group, p < 0.05), which suggests that DMSO has an antihyperalgesic effect
Summary
Numerous lines of evidence suggest the existence of a state of trigeminal sensitization in migraineurs, which results in hyperalgesia, allodynia, and cognitive dysfunction during and between episodes [1,2]. Systemic administration of NTG has been used extensively as an animal model of migraine pain since it induces a condition of hyperalgesia in the rat and is associated with the activation of spinal cord and brain structures involved in nociception [6,7]. In this model, we have shown that modulation of the endocannabinoid system (ECs) has an antihyperalgesic effect [8,9,10] and reduces the neuronal activation in the nucleus trigeminalis caudalis (NTC) and area postrema [8]. Conclusions: The data suggest that URB937 is capable of changing, probably via indirect mechanisms, the functional status of central structures that are important for pain transmission in an animal model of migraine
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