Abstract

BackgroundQuail egg (QE) has been reported to possess an anti-allergic and anti-inflammatory activity. We have demonstrated that whole QE was able to attenuate the allergic symptoms in food allergy–induced EoE murine model, but whether QE albumen or QE yolk plays a more important role still remains unclear.ObjectiveIn this current study, we investigated the suppressive role of QE in mast cell degranulation and cytokine production of the effect phase response.MethodA passive cutaneous anaphylaxis (PCA) mouse model was used to confirm the anti-allergic effect of QE. Besides, HMC-1 cell model was used to study its suppressive role in more detail. In this in vitro study, we divided QE into three groups: whole QE, QE albumen, and QE yolk. The effect of QE treatment on mast cell degranulation and intracellular calcium influx was investigated. Moreover, the effect of QE allergy– related mediators, genes, and proteins were also assessed by ELISA, RT-PCR, and western blotting.Results and discussionOur data showed that the extent of mast cell degranulation–mediated ear vascular permeability in IgE-mediated PCA mice treated with whole QE (17 mg/kg) was decreased significantly up to 43.31 ± 0.42% reduction. HMC-1 cell–based immunological assay in vitro indicated that QE, particularly its albumen, acted as a ‘mast cell stabilizer’. Under the concentration of 70 μg/mL, QE albumen effectively suppressed the releases of β-hexosaminidase, histamine, and tryptase, as well as Th2 and pro-inflammatory cytokine production; reached 30 up to 50% reduction. Besides, QE albumen was also able to significantly modulate the upregulation of IL-10 up to 58.30 ± 5.9%. Interestingly, our data indicated that QE yolk still had a significant inhibitory effect on modulating Th2 cytokines in its highest concentration (100 μg/mL), while QE albumen showed no inhibitory effect. Western blot analysis showed QE albumen effectively down-regulated the expressions of calcium-related protein (TRPC1, Orai1, STIM1, PLC-γ and IP3R), facilitated the reduction of PAR-2 and induced the reduction of phosphorylation of JNK, IKKα, p50 and p65 protein expressions.ConclusionAs confirmed by PCA and HMC-1 cell-based immunology assay, QE albumen and QE yolk may work together through exerting anti-allergy activity and can be used as a potential anti-allergic nutrient in the future.

Highlights

  • Quail egg (QE) has been reported to possess an anti-allergic and anti-inflammatory activity

  • The IgE-mediated passive cutaneous anaphylaxis (PCA) was successfully induced by the sequential injections of IgE and dinitrophenol-human serum albumin (DNP-HSA) within 40 min after injection. This PCA response was in parallel with vastly occurring capillary dilatation and the increase of ear vascular permeability, by which manifestation was visibly shown by the leakage of Evans blue dye into the ears, indicating the occurrence of mast cell degranulation at site of IgE-sensitized mice ears

  • Because the activation of mitogen-activated protein kinases (MAPK) and NF-κB is critically required for the transcriptional regulation of PAR2-mediated allergic response [24], we further investigated whether the inhibition of allergic responses by QE are mediated through the MAPK and nuclear translocation of NF-κB pathway in C48/80-stimulated HMC-1 by western blot analysis

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Summary

Introduction

Quail egg (QE) has been reported to possess an anti-allergic and anti-inflammatory activity. Objective: In this current study, we investigated the suppressive role of QE in mast cell degranulation and cytokine production of the effect phase response. HMC-1 cell model was used to study its suppressive role in more detail In this in vitro study, we divided QE into three groups: whole QE, QE albumen, and QE yolk. Our data indicated that QE yolk still had a significant inhibitory effect on modulating Th2 cytokines in its highest concentration (100 μg/mL), while QE albumen showed no inhibitory effect. Conclusion: As confirmed by PCA and HMC-1 cell-based immunology assay, QE albumen and QE yolk may work together through exerting anti-allergy activity and can be used as a potential anti-allergic nutrient in the future

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