Pituitary adenylate cyclase-activating polypeptide (PACAP) is a multifunctional peptide that has been shown to be neuroprotective following a diverse range of cell injuries. Although several mechanisms regulating this effect have been reported, no direct evidence has linked PACAP to the regulation of oxidative stress, despite the fact that oxidative stress is a factor in the injury progression that occurs in most models. In the present study, we investigated the plasma oxidative metabolite and anti-oxidation potential levels of PACAP-deficient mice, as well as those of wild-type animals treated with PACAP38. These were assayed by the determination of Reactive Oxidative Metabolites (d-ROMs) and the Biological Anti-oxidant Potential (BAP) using the Free Radical Electron Evaluator system. We also investigated the direct radical scavenging potency of PACAP38 and the functional role of its receptor in the regulation of oxidative stress by PACAP, by using vasoactive intestinal peptide (VIP) and the PACAP receptor antagonist, PACAP6-38. Although younger PACAP null mice displayed no significant effect, greater d-ROMs and lower BAP values were recorded in older animals than in their wild-type littermates. Intravenous injection of PACAP38 in wild-type mice decreased the plasma d-ROMs and BAP values in a dose-dependent manner. These effects were not reproduced using VIP and were abolished by co-treatment with PACAP38 and the PAC1R antagonist PACAP6-38. Taken together, these results suggest that PACAP plays an important role in the physiological regulation of oxidative stress.
Background: Intestinal microbiota are known to play an important role in the establishment of oral tolerance, thereby protecting the organism from food allergies. Dietary intake of nucleic acid (NA) is also reported to have such an anti-allergic effect; however, one unsolved question is whether or not dietary NA would act through a process of toll-like receptor 9 signaling activated by DNA containing a CpG motif, a well-known sequence leading to immunostimulatory activity. In this study, we focused on the question of whether the addition of dietary NA lacking CpG motifs would allow continued modulation of the Th1/Th2 balance. Methods: Germ free (GF) and Bifidobacterium-infantis-monoassociated BALB/c mice were maintained on either an NA-free casein diet or on an NA-supplemented casein diet for 4 weeks. Thereafter, both the in vivo anti-casein antibody levels and in vitro splenocyte cytokine secretion pattern were evaluated. Results: Feeding with a casein diet elicited a substantial increase in the serum anti-casein-specific IgG1, IgG2a, and IgE levels of GF mice fed the NA free-diet. The in vitro cytokine production profile showed that enhanced IL-4 production in the GF mice fed the NA free-diet was markedly reduced by the supplementation with dietary NA in both the GF and B.-infantis-monoassociated mice. In addition, IFN-γ secretion increased in the B.-infantis-reconstituted mice fed the diet containing NA. Conclusions: These results suggest that dietary intake of NA devoid of CpG motifs may prevent the development of allergies via acceleration of Th1-dominant immunity.
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