the putative role of SST in the pat

the putative role of SST in the pathomechanism of migraine.
2.7. NOP
NOP (orphanin FQ), a 17-amino acid opioid-related peptide, is an
endogenous ligand for the orphan-like receptor 1, a member of the opioid
receptor family (nowadays termed the NOP1 receptor) (Meunier
et al., 1995;Mollereau et al., 1994). The NOP1 receptor iswidely distributed
in the CNS, e.g. in the hypothalamus, the brainstem and the dorsal
horn of the spinal cord (Bridge et al., 2003; Mollereau and Mouledous,
2000). NOP has multidirectional effects in the CNS, exerting algesic,
hyperalgesic and analgesic properties, while in the PNS it displays
antinociceptive effects (Ertsey et al., 2005; Giuliani et al., 2000;
Meunier et al., 2000; Reinscheid et al., 2000). In tracing experiments
with immunohistochemical visualization,NOP-ir fibres of trigeminal originwere
detected in the dorsal horn of the cervical spinal cord (Marfurt
and Del Toro, 1987). In the human TRIG, 78% of medium-sized neurons
(30–60μm) express NOP immunoreactivity (Hou et al., 2003). About
61% of the NOP-ir neurons are co-localized with CGRP, and 68% of
them contain PACAP (Hou et al., 2003). Interestingly, the human intracranial
arteries (basilar and MCAs) do not demonstrate NOP1 receptor
mRNA expression, and similarly the human extracranial temporal artery
does not possess NOP immunoreactivity (Hou et al., 2003; Mork
et al., 2002). NOP does not influence the contractile properties of the
human cerebral arteries (Hou et al., 2003). The migraine-related CNS
structures, such as the TNC, LC, PAG, raphe nuclei, thalamus and sensory
cortex, display NOP1 receptor expression (Ertsey et al., 2005). Themeningeal
vasculature is densely innervated by trigeminal sensory nerve fibres
(unmyelinated C-fibres and thinlymyelinated Aδ fibres), and their
activation can result in neurogenic inflammation as a source ofmigraine
pain (Edvinsson and Goadsby, 1998; Edvinsson and Uddman, 2005).
After electrical stimulation of theMMA, neurogenic dural vasodilatation
was observed in an animal model of a closed cranial window (Bartsch
et al., 2002). In this experimental set-up, intravenously administered
NOP dose-dependently suppressed the neurogenic dural vasodilatation
via NOP1 receptor activation (Bartsch et al., 2002). A clinical study of the
circulating NOP revealed a lower plasma NOP level in migraine patients
without aura during the headache-free period than in controls, and the
level correlating with the attack frequency (Ertsey et al., 2005).
Thus, the action of NOP on the NOP1 receptor may play a role in the
regulation of the vasomotor response of the cerebral dura mater and
may be involved in the modulation of the release of the neuropeptide
from the trigeminal sensory nerve terminals.