Twenty-four-hour variation of L-arginine/nitric oxide/cyclic guanosine monophosphate pathway demonstrated by the mouse visceral pain model

The role of the angiotensin AT2 receptor on the diurnal variations of nociception and motor coordination in rats

Phasic pain demonstrates significant diurnal variation in rats. Angiotensin II modulates pain transmission and the diurnal variation in nociception in several rodent pain models. The participation of AT2 receptors in the diurnal regulation of nociception is not yet elucidated. In the present study we investigated the effects of selective peptide AT2 agonist CGP 42112A and the nonpeptide AT2 receptor antagonist PD 123319 on the nociception, motor coordination and arterial blood pressure. Male Wistar 12 weeks old rats were used. CGP 42112A was injected at single doses of 1 and 5 μg/rat intracerebroventricularly (ICV) and infused chronically ICV at a dose of 12 μg/rat/day during 14 days by osmotic minipumps. PD123319 was injected at single doses of 1 and 5 μg/rat, ICV and chronically subcutaneously at a dose of 10 mg/kg/day/14 days. Nociception was assessed by an analgesimeter, arterial blood pressure (ABP) was measured by tail cuff method, and motor coordination by Rota-rod method. Single doses of CGP 42112A (1 and 5 μg/rat) provoked a short lasting antinociception. Unlike acute injection, chronic CGP 42112A infusion increased nociception at the beginning and the end of light phase thus attenuating the diurnal variations observed in the controls. Moreover, it produced an increase of ABP and improved motor coordination. Both acute (1 μg/rat) and chronic PD 123319 treatment resulted in a decrease of pain threshold and chronic treatment attenuated its diurnal fluctuation. Our data support a role for Ang II type 2 receptors in the control of diurnal variations of nociception in rats.

Soluble mediators released from PI-IBS patients' colon induced alteration of mast cell: involvement of reactive oxygen species

BACKGROUND

Growing evidence suggests that patients with post-infectious irritable bowel syndrome (PI-IBS) have increased mast cell activation, and that mucosal soluble mediators are involved in the pathophysiology of visceral hyperalgesia. In addition, previous findings show that reactive oxygen species (ROS) and protease-activated receptors (PARs) are mediators of persistent hyperalgesia.

AIMS

This article aims to investigate: (1) the ability of soluble factors from colonic biopsies to active peritoneal mast cells (PMCs) in vitro; (2) whether the effects of PMCs degranulation induced by soluble mediators are related to PARs activation; and (3) the ability of phenyl N-tert-butylnitrone (PBN), a ROS scavenger, to modify these alterations.

METHODS

Supernatant (SUP) from colonic biopsies was collected and applied to PMCs for 12 h. Activation of PMCs was evaluated. The expression of PAR(2) in PMCs was examined by RT-PCR and double-immunofluorescence staining. PBN (10 mM) treatment was administered, then previous alterations were observed again.

RESULTS

Stimulation with SUP of PI-IBS led to an increase in activation of PMCs. PAR(2)mRNA expression was significantly increased in PMCs induced by SUP of PI-IBS compared to healthy subjects. After being treated by PBN, the SUP-induced enhancement of PMCs activities could be weakened, and PAR(2)mRNA expression was significantly decreased. A similar result of immunoreactivity for PAR(2) was observed in PMCs.

CONCLUSIONS

The study shows that ROS scavenger reverses the SUP of PI-IBS-induced enhancement of PMCs activities, and that these effects may be related to activation of PAR(2). These findings might pave the way to new therapeutic targets in PI-IBS.