α‐Galactosylceramide‐activated murine NK1.1+ invariant‐NKT cells in the myometrium induce miscarriages in mice

Innate immunity, which is unable to discriminate self from allo‐antigens, is thought to be important players in the induction of miscarriages. Here, we show that the administration of IL‐12 to syngeneic‐mated C57BL/6 mice on gestation day 7.5 (Gd 7.5), drives significant miscarriages in pregnant females. Furthermore, the administration on Gd 7.5 of α‐galactosylceramide (α‐GalCer), which is known to activate invariant natural killer T (iNKT) cells, induced miscarriages in both syngeneic‐mated C57BL/6 mice and allogeneic‐mated mice (C57BL/6 (♀) × BALB/c (♂)). Surprisingly, the percentages of both DEC‐205⁺ DCs and CD1d‐restricted NK1.1⁺ iNKT cells were higher in the myometrium of pregnant mice treated i.p. with α‐GalCer than in the decidua. IL‐12 secreted from α‐GalCer‐activated DEC‐205⁺ DCs stimulated the secretion of cytokines, including IL‐2, IL‐4, IFN‐γ, TNF‐α, perforin, and granzyme B, from the NK1.1⁺ iNKT cells in the myometrium, leading to fetal loss in pregnant mice. Finally, the i.p. administration of IL‐12 and/or α‐GalCer in iNKT‐deficient Jα18(‐/‐) (Jα18 KO) mice did not induce miscarriages. This study provides a new perspective on the importance of the myometrium, rather than the decidua, in regulating pregnancy and a mechanism of miscarriage mediated by activated DEC‐205⁺ DCs and NK1.1⁺ iNKT cells in the myometrium of pregnant mice.     

α‐GalCer ameliorates listeriosis by accelerating infiltration of Gr‐1+ cells into the liver

α‐Galactosylceramide (α‐GalCer) activates invariant (i)NKT cells, which in turn stimulate immunocompetent cells. Although activation of iNKT cells appears critical for regulation of immune responses, it remains elusive whether protection against intracellular bacteria can be induced by α‐GalCer. Here, we show that α‐GalCer treatment ameliorates murine listeriosis, and inhibits inflammation following Listeria monocytogenes infection. Liver infiltration of Gr‐1⁺ cells and γ/δ T cells was accelerated by α‐GalCer treatment. Gr‐1⁺ cell and γ/δ T‐cell depletion exacerbated listeriosis in α‐GalCer‐treated mice, and this effect was more pronounced after depletion of Gr‐1⁺ cells than that of γ/δ T cells. Although GM‐CSF and IL‐17 were secreted by NKT cells after α‐GalCer treatment, liver infiltration of Gr‐1⁺ cells was not prevented by neutralizing mAb. In parallel to the numerical increase of CD11b⁺Gr‐1⁺ cells in the liver following α‐GalCer treatment, CD11b^?Gr‐1⁺ cells were numerically reduced in the bone marrow. In addition, respiratory burst in Gr‐1⁺ cells was enhanced by α‐GalCer treatment. Our results indicate that α‐GalCer‐induced antibacterial immunity is caused, in part, by accelerated infiltration of Gr‐1⁺ cells and to a lesser degree of γ/δ T cells into the liver. We also suggest that the infiltration of Gr‐1⁺ cells is caused by an accelerated supply from the bone marrow.     

Miscarriage induced by adoptive transfer of dendritic cells and invariant natural killer T cells into mice

Unexpected fetal loss is one of the common complications of pregnancy; however, the pathogenesis of many miscarriages, particularly those not associated with infections, is unknown. We previously found that activated DEC‐205⁺ dendritic cells (DCs) and NK1.1⁺ invariant natural killer T (iNKT) cells are recruited into the myometrium of mice when miscarriage is induced by the intraperitoneal administration of α‐galactosylceramide (α‐GalCer). Here we demonstrate that the adoptive transfer of DEC‐205⁺ bone marrow‐derived DCs cocultured with α‐GalCer (DEC‐205⁺ BMDCs‐c/w‐α‐GalCer) directly induced marked fetal loss by syngeneic pregnant C57BL/6 (B6) mice and allogeneic mice (B6 (♀) × BALB/c (♂)), which was accompanied by the accumulation of activated iNKT cells in the myometrium. Further, the adoptive transfer of NK1.1⁺ iNKT cells obtained from B6 mice injected with α‐GalCer facilitated miscarriages in syngeneic Jα18^(?/?) (iNKT cell‐deficient) mice. These results suggest that DEC‐205⁺ DCs and NK1.1⁺ iNKT cells play crucial roles required for the initiation of fetal loss associated with stimulation by glycolipid antigens and sterile inflammation.     

In‐vivo stimulation of macaque natural killer T cells with α‐galactosylceramide

Natural killer T cells are a potent mediator of anti‐viral immunity in mice, but little is known about the effects of manipulating NKT cells in non‐human primates. We evaluated the delivery of the NKT cell ligand, α‐galactosylceramide (α‐GalCer), in 27 macaques by studying the effects of different dosing (1–100 μg), and delivery modes [directly intravenously (i.v.) or pulsed onto blood or peripheral blood mononuclear cells]. We found that peripheral NKT cells were depleted transiently from the periphery following α‐GalCer administration across all delivery modes, particularly in doses of ≥10 μg. Furthermore, NKT cell numbers frequently remained depressed at i.v. α‐GalCer doses of >10 μg. Levels of cytokine expression were also not enhanced after α‐GalCer delivery to macaques. To evaluate the effects of α‐GalCer administration on anti‐viral immunity, we administered α‐GalCer either together with live attenuated influenza virus infection or prior to simian immunodeficiency virus (SIV) infection of two macaques. There was no clear enhancement of influenza‐specific T or B cell immunity following α‐GalCer delivery. Further, there was no modulation of pathogenic SIV_mac251 infection following α‐GalCer delivery to a further two macaques in a pilot study. Accordingly, although macaque peripheral NKT cells are modulated by α‐GalCer in vivo, at least for the dosing regimens tested in this study, this does not appear to have a significant impact on anti‐viral immunity in macaque models.     

Antigen‐specific airway IL‐33 production depends on FcγR‐mediated incorporation of the antigen by alveolar macrophages in sensitized mice

Although interleukin (IL)‐33 is a candidate for the aggravation of asthma, the mechanisms underlying antigen‐specific IL‐33 production in the lung are unclear. Therefore, we analysed the mechanisms in mice. Intra‐tracheal administration of ovalbumin (OVA) evoked increases in IL‐33 and IL‐33 mRNA in the lungs of both non‐sensitized and OVA‐sensitized mice, and the increases in the sensitized mice were significantly higher than in the non‐sensitized mice. However, intra‐tracheal administration of bovine serum albumin did not increase the IL‐33 level in the OVA‐sensitized mice. Depletion of neither mast cells/basophils nor CD4⁺ cells abolished the OVA‐induced IL‐33 production in sensitized mice, suggesting that the antigen recognition leading to the IL‐33 production was not related with either antigen‐specific IgE‐bearing mast cells/basophils or memory CD4⁺ Th2 cells. When a fluorogenic substrate‐labelled OVA (DQ‐OVA) was intra‐tracheally administered, the lung cells of sensitized mice incorporated more DQ‐OVA than those of non‐sensitized mice. The lung cells incorporating DQ‐OVA included B‐cells and alveolar macrophages. The allergic IL‐33 production was significantly reduced by treatment with anti‐FcγRII/III mAb. Depletion of alveolar macrophages by clodronate liposomes significantly suppressed the allergic IL‐33 production, whereas depletion of B‐cells by anti‐CD20 mAb did not. These results suggest that the administered OVA in the lung bound antigen‐specific IgG Ab, and then alveolar macrophages incorporated the immune complex through FcγRII/III on the cell surface, resulting in IL‐33 production in sensitized mice. The mechanisms underlying the antigen‐specific IL‐33 production may aid in development of new pharmacotherapies.     

Anti‐Asthma Simplified Herbal Medicine Intervention‐induced long‐lasting tolerance to allergen exposure in an asthma model is interferon‐γ, but not transforming growth factor‐β dependent

Background Chronic allergic asthma is the result of a T‐helper type 2 (Th2)‐biased immune status. Current asthma therapies control symptoms in some patients, but a long‐lasting therapy has not been established. Anti‐Asthma Simplified Herbal Medicine Intervention (ASHMI^?), a Chinese herbal formula improved symptoms and lung function, and reduced Th2 responses in a controlled trial of patients with persistent moderate to severe asthma. Objective We evaluated the persistence of ASHMI^? beneficial effects following therapy in a murine model of chronic asthma and the immunological mechanisms underlying such effects. Methods BALB/c mice sensitized intraperitoneally with ovalbumin (OVA) received 3 weekly intratracheal OVA challenges to induce airway hyper‐reactivity (AHR) and inflammation (OVA mice). Additionally, OVA mice were treated with ASHMI^? (OVA/ASHMI^?) or water (OVA/sham) for 4 weeks, and then challenged immediately and 8 weeks post‐therapy. In other experiments, OVA mice received ASHMI^? treatment with concomitant neutralization of IFN‐γ or TGF‐β. Effects on airway responses, cytokine‐ and OVA‐specific IgE levels were determined 8 weeks post‐therapy. Results Before treatment, OVA mice exhibited AHR and pulmonary eosinophilic inflammation following OVA challenge, which was almost completely resolved immediately after completing treatment with ASHMI^? and did not re‐occur following OVA re‐challenge up to 8 weeks post‐therapy. Decreased allergen‐specific IgE and Th2 cytokine levels, and increased IFN‐γ levels also persisted at least 8 weeks post‐therapy. ASHMI^? effects were eliminated by the neutralization of IFN‐γ, but not TGF‐β, during therapy. Conclusion ASHMI^? induced long‐lasting post‐therapy tolerance to antigen‐induced inflammation and AHR. IFN‐γ is a critical factor in ASHMI^? effects. Cite this as: K. Srivastava, T. Zhang, N. Yang, H. Sampson and X. M. Li, Clinical & Experimental Allergy, 2010 (40) 1678–1688.     

Non‐glycosidic compounds can stimulate both human and mouse iNKT cells

Invariant natural killer T (iNKT) cells recognize CD1d/glycolipid complexes and upon activation with synthetic agonists display immunostimulatory properties. We have previously described that the non‐glycosidic CD1d‐binding lipid, threitolceramide (ThrCer) activates murine and human iNKT cells. Here, we show that incorporating the headgroup of ThrCer into a conformationally more restricted 6‐ or 7‐membered ring results in significantly more potent non‐glycosidic analogs. In particular, ThrCer 6 was found to promote strong anti‐tumor responses and to induce a more prolonged stimulation of iNKT cells than does the canonical α‐galactosylceramide (α‐GalCer), achieving an enhanced T‐cell response at lower concentrations compared with α‐GalCer both in vitro, using human iNKT‐cell lines and in vivo, using C57BL/6 mice. Collectively, these studies describe novel non‐glycosidic ThrCer‐based analogs that have improved potency in iNKT‐cell activation compared with that of α‐GalCer, and are clinically relevant iNKT‐cell agonists.     

Bacillus‐derived poly‐γ‐glutamic acid attenuates allergic airway inflammation through a Toll‐like receptor‐4‐dependent pathway in a murine model of asthma

Background Asthma is an inflammatory disease of the airways that is mediated by Th2 responses. Poly‐γ‐glutamic acid (γ‐PGA) is an extracellular polymeric compound that is synthesized by Bacillus cells. Previously, we found that γ‐PGA promoted Th1 cell development in a manner dependent on antigen‐presenting cells, but inhibited Th2 cell development. Objective To investigate the effect of γ‐PGA on dendritic cells (DCs), and its potential for treating Th2‐mediated allergic asthma. Methods Wild‐type, Toll‐like receptor (TLR)‐2 deficient, and TLR‐4‐defective mice were used. DCs derived from the bone marrow and extracted from the lung were stimulated with γ‐PGA and assayed for the expression of signalling molecules, costimulatory molecules, and cytokines. Mice were sensitized and challenged with ovalbumin (OVA) to induce asthma. They were repeatedly injected intranasally with γ‐PGA before and during the challenge period, and inflammation and structural remodelling of the airways were examined. Results γ‐PGA selectively signalled conventional DCs to activate NF‐κB and mitogen‐activated protein kinase, leading to the up‐regulation of CD86, CD40, and IL‐12, but not IL‐10 and IL‐6. These effects of γ‐PGA were dependent on TLR‐4 and independent of TLR‐2. Importantly, the intranasal administration of γ‐PGA to OVA‐sensitized/challenged mice reduced the airway hyperresponsiveness and allergic inflammation such as leucocyte influx, goblet cell hyperplasia, eosinophilia, and Th2 cytokine production. In addition to lowered IgE titres, the treatment of mice with γ‐PGA significantly reduced the multiplication and Th2 polarization of mediastinal lymph node T cells upon allergen‐specific restimulation. These anti‐asthmatic effects of γ‐PGA were also abolished in TLR‐4‐defective mice. Conclusions and Clinical Relevance Our data indicate that γ‐PGA activates DCs to favour Th1 cell induction through a TLR‐4‐dependent pathway and alleviates pathologic symptoms in a Th2‐biased asthmatic model. These findings highlight the potential of γ‐PGA for the treatment of asthma and other allergic disease in which Th2 polarization plays an important role. Cite this as: K. Lee, S.‐H. Kim, H. J. Yoon, D. J. Paik, J. M. Kim and J. Youn, Clinical & Experimental Allergy, 2011 (41) 1143–1156.     

Identification of C‐glycoside analogues that display a potent biological activity against murine and human invariant natural killer T cells

We have recently shown that α‐C‐galactosylceramide (α‐C‐GalCer) stimulates invariant natural killer T (iNKT) cells and preferentially induces a T helper 1 (Th1)‐type response in mice. However, α‐C‐GalCer was found to be a rather weak ligand against human iNKT cells in vitro. Therefore, in this study, we sought to identify a compound that displays a strong stimulatory activity against human iNKT cells, by determining the biological activities of several C‐glycoside analogues. From the in vitro screening assays, we found that almost all C‐glycoside analogues, which have an E‐alkene linker between sugar and lipid moieties, are able to activate human iNKT cells and to induce the maturation and activation of human dendritic cells through iNKT‐cell activation. In summary, although α‐galactosylceramide (α‐GalCer) remains the strongest iNKT‐cell ligand, our study identified E‐alkene‐linked C‐glycoside analogues as potent human iNKT‐cell stimulants, and indicated that these analogues could be used as a therapeutic agent in the future for diseases resolved by Th1‐type responses.     

The regulatory role of interferon‐γ producing gamma delta T cells via the suppression of T helper 17 cell activity in bleomycin‐induced pulmonary fibrosis

Interstitial pneumonia (IP) is a chronic progressive interstitial lung disease associated with poor prognosis and high mortality. However, the pathogenesis of IP remains to be elucidated. The aim of this study was to clarify the role of pulmonary γδT cells in IP. In wild‐type (WT) mice exposed to bleomycin, pulmonary γδT cells were expanded and produced large amounts of interferon (IFN)‐γ and interleukin (IL)‐17A. Histological and biochemical analyses showed that bleomycin‐induced IP was more severe in T cell receptor (TCR‐δ‐deficient (TCRδ^–/–) mice than WT mice. In TCRδ^–/– mice, pulmonary IL‐17A⁺CD4⁺ Τ cells expanded at days 7 and 14 after bleomycin exposure. In TCRδ^–/– mice infused with γδT cells from WT mice, the number of pulmonary IL‐17A⁺ CD4⁺ T cells was lower than in TCRδ^–/– mice. The examination of IL‐17A^–/– TCRδ^–/– mice indicated that γδT cells suppressed pulmonary fibrosis through the suppression of IL‐17A⁺CD4⁺ T cells. The differentiation of T helper (Th)17 cells was determined in vitro, and CD4⁺ cells isolated from TCRδ^–/– mice showed normal differentiation of Th17 cells compared with WT mice. Th17 cell differentiation was suppressed in the presence of IFN‐γ producing γδT cells in vitro. Pulmonary fibrosis was attenuated by IFN‐γ‐producing γδT cells through the suppression of pulmonary IL‐17A⁺CD4⁺ T cells. These results suggested that pulmonary γδT cells seem to play a regulatory role in the development of bleomycin‐induced IP mouse model via the suppression of IL‐17A production.     

Innate IFN‐γ promotes development of experimental autoimmune encephalomyelitis: A role for NK cells and M1 macrophages

The role of IFN‐γ in the pathogenesis of autoimmune diseases is controversial. Although Th1 cells can induce experimental autoimmune encephalomyelitis (EAE), IFN‐γ can suppress Th17 cells that are pathogenic in EAE. Here we show that NK cells provide an early source of IFN‐γ during development of EAE. Depletion of NK cells or neutralization of IFN‐γ delayed the onset of EAE and was associated with reduced infiltration of IL‐17⁺ and GM‐CSF⁺ T cells into the CNS. In the passive transfer model, immune cells from myelin oligodendrocyte glycoprotein (MOG)‐immunized IFN‐γ^?/? mice failed to induce EAE, despite producing IL‐17 and GM‐CSF. The macrophages expressed markers of M2 activation and the T cells had low very late antigen‐4 (VLA‐4) expression and failed to infiltrate the CNS. Addition of recombinant IFN‐γ to immune cells from the IFN‐γ^?/? mice activated M1 macrophages and restored VLA‐4 expression, migratory, and encephalitogenic activity of T cells. Furthermore, treatment of recipient mice with anti‐VLA‐4 neutralizing antibody abrogated EAE induced by transfer of T cells from WT mice. Our findings demonstrate IFN‐γ‐producing T cells are not required for development of EAE, but NK cell‐derived IFN‐γ has a key role in promoting M1 macrophage expansion and VLA‐4‐mediated migration of encephalitogenic T cells into the CNS.     

Interferon‐γ constrains cytokine production of group 2 innate lymphoid cells

Group 2 innate lymphoid cells (ILC2s) produce a significant amount of interleukin‐5 (IL‐5), which supports eosinophil responses in various tissues; they also produce IL‐13, which induces mucus production and contributes to tissue repair or fibrosis. The ILC2s are activated by alarmins, such as IL‐33 released from epithelia, macrophages and natural killer T (NKT) cells in response to infection and allergen exposure, leading to epithelial injury. We examined gene expression in lung ILC2s and found that ILC2s expressed Ifngr1, the receptor for interferon‐γ (IFN‐γ). Interferon‐γ severely inhibited IL‐5 and IL‐13 production by lung and kidney ILC2s. To evaluate the effects in vivo, we used α‐galactosylceramide (α‐GalCer) to induce NKT cells to produce IL‐33 and IFN‐γ. Intraperitoneal injection of α‐GalCer in mice induced NKT cell activation resulting in IL‐5 and IL‐13 production by ILC2s. Administration of anti‐IFN‐γ together with α‐GalCer significantly enhanced the production of IL‐5 and IL‐13 by ILC2s in lung and kidney. Conversely, cytokine production from ILC2s was markedly suppressed after injection of exogenous IL‐33 in Il33^?/? mice pre‐treated with α‐GalCer. Hence, IFN‐γ induced or already present in tissues can impact downstream pleiotropic functions mediated by ILC2s, such as inflammation and tissue repair.     

Fcγ receptor‐mediated antigen uptake by lung DC contributes to allergic airway hyper‐responsiveness and inflammation

During asthma, lung DC capture and process antigens to initiate and maintain allergic Th2 cell responses to inhaled allergens. The aim of the study was to investigate whether allergen‐specific IgG, generated during sensitization, can potentiate the acute airway inflammation through Fcγ receptor (FcγR)‐mediated antigen uptake and enhance antigen presentation resulting in augmented T‐cell proliferation. We examined the impact of antigen presentation and T‐cell stimulation on allergic airway hyperresponsiveness and inflammation using transgenic and gene‐deficient mice. Both airway inflammation and eosinophilia in bronchoalveolar lavage fluid were markedly reduced in sensitized and challenged FcγR‐deficient mice. Lung DC of WT, but not FcγR‐deficient mice, induced increased antigen‐specific CD4⁺ T‐cell proliferation when pulsed with anti‐OVA IgG immune complexes. Intranasal application of anti‐OVA IgG immune complexes resulted in enhanced airway inflammation, eosinophilia and Th2 cytokine release, mediated through enhanced antigen‐specific T‐cell proliferation in vivo. Finally, antigen‐specific IgG in the serum of sensitized mice led to a significant increase of antigen‐specific CD4⁺ T‐cell proliferation induced by WT, but not FcγR‐deficient, lung DC. We conclude that FcγR‐mediated enhanced antigen presentation and T‐cell stimulation by lung DC has a significant impact on inflammatory responses following allergen challenge in asthma.     

IFN‐γ‐producing NKT cells exacerbate sepsis by enhancing C5a generation via IL‐10‐mediated inhibition of CD55 expression on neutrophils

A role for NKT cells has been implicated in sepsis, but the mechanism by which NKT cells contribute to sepsis remains unclear. Here, we examined WT and NKT‐cell‐deficient mice of C57BL/6 background during cecal ligation and puncture‐induced sepsis. The levels of C5a, IFN‐γ, and IL‐10 were higher in the serum and peritoneal fluid of WT mice than in those of CD1d^?/? mice, while the mortality rate was lower in CD1d^?/? mice than in WT mice. C5a blockade decreased mortality of WT mice during sepsis, whereas it did not alter that of CD1d^?/? mice. As assessed by intracellular staining, NKT cells expressed IFN‐γ, while neutrophils expressed IL‐10. Upon coculture, IL‐10‐deficient NKT cells enhanced IL‐10 production by WT, but not IFN‐γR‐deficient, neutrophils. Meanwhile, CD1d^?/? mice exhibited high CD55 expression on neutrophils during sepsis, whereas those cells from WT mice expressed minimal levels of CD55. Recombinant IL‐10 administration into CD1d^?/? mice reduced CD55 expression on neutrophils. Furthermore, adoptive transfer of sorted WT, but not IFN‐γ‐deficient, NKT cells into CD1d^?/? mice suppressed CD55 expression on neutrophils, but increased IL‐10 and C5a levels. Taken together, IFN‐γ‐producing NKT cells enhance C5a generation via IL‐10‐mediated inhibition of CD55 expression on neutrophils, thereby exacerbating sepsis.     

IL‐33 promotes innate IFN‐γ production and modulates dendritic cell response in LCMV‐induced hepatitis in mice

Recent studies have revealed IL‐33 as a key factor in promoting antiviral T‐cell responses. However, it is less clear as to how IL‐33 regulates innate immunity. In this study, we infected wild‐type (WT) and IL‐33^?/? mice with lymphocytic choriomeningitis virus and demonstrated an essential role of infection‐induced IL‐33 expression for robust innate IFN‐γ production in the liver. We first show that IL‐33 deficiency resulted in a marked reduction in the number of IFN‐γ⁺ γδ T and NK cells, but an increase in that of IL‐17⁺ γδ T cells at 16 h postinfection. Recombinant IL‐33 (rIL‐33) treatment could reverse such deficiency via increasing IFN‐γ‐producing γδ T and NK cells, and inhibiting IL‐17⁺ γδ T cells. We also found that rIL‐33‐induced type 2 innate lymphoid cells were not involved in T‐cell responses and liver injury, since the adoptive transfer of type 2 innate lymphoid cells neither affected the IFN‐γ and TNF‐α production in T cells, nor liver transferase levels in lymphocytic choriomeningitis virus infected mice. Interestingly, we found that while IL‐33 was not required for costimulatory molecule expression, it was critical for DC proliferation and cytokine production. Together, this study highlights an essential role of IL‐33 in regulating innate IFN‐γ‐production and DC function during viral hepatitis.     

EAE mediated by a non‐IFN‐γ/non‐IL‐17 pathway

Previous studies have shown that EAE can be elicited by the adoptive transfer of either IFN‐γ‐producing (Th1) or IL‐17‐producing (Th17) myelin‐specific CD4⁺ T‐cell lines. Paradoxically, mice deficient in either IFN‐γ or IL‐17 remain susceptible to EAE following immunization with myelin antigens in CFA. These observations raise questions about the redundancy of IFN‐γ and IL‐17 in autoimmune demyelinating disease mediated by a diverse, polyclonal population of autoreactive T cells. In this study, we show that an atypical form of EAE, induced in C57BL/6 mice by the adoptive transfer of IFN‐γ‐deficient effector T cells, required IL‐17 signaling for the development of brainstem infiltrates. In contrast, classical EAE, characterized by predominant spinal cord inflammation, occurred in the combined absence of IFN‐γ and IL‐17 signaling, but was dependent on GM‐CSF and CXCR2. Our findings contribute to a growing body of data, indicating that individual cytokines vary in their importance across different models of CNS autoimmunity.     

Ameliorative effect of acetylshikonin on ovalbumin (OVA)‐induced allergic rhinitis in mice through the inhibition of Th2 cytokine production and mast cell histamine release

Acetylshikonin has long been known as an anti‐inflammatory and antioxidative reagent. However, the anti‐allergic effect has not been studied. The aim of this study was to evaluate the effect of acetylshikonin on allergic rhinitis (AR) in mice. Mice were sensitized by intraperitoneal injection of OVA and aluminum hydroxide and challenged with intranasal instillation of OVA. Acetylshikonin was administered orally after nasal cavities challenge. Severity of allergic rhinitis was assessed according to nasal symptoms; serum OVA‐specific immunoglobulin E (IgE), IgG1, and IgG2a level; and interleukin (IL)‐4, IL‐10, IL‐5, IL‐13, TNF‐α, IL‐12, and interferon (INF)‐γ levels in nasal lavage fluid (NALF). Additionally, the histological change and the release of histamine in serum and nasal lavage fluid were evaluated by acid‐Schiff stain and ELISA. Acetylshikonin attenuated manifestation of nasal symptoms in sensitized mice and inhibited production of Th2‐related OVA‐specific IgE, IgG1, and Th2 cell‐produced IL‐4, IL‐5, IL‐13, and mast cell produced histamine; however, it had no effect on Th1 cell‐produced cytokines, like INF‐γ. In addition, the degree of inflammatory cell infiltration and goblet cell hyperplasia was attenuated by acetylshikonin treatment. Our results suggest that acetylshikonin effectively reduces allergic inflammation in a mouse model of allergic rhinitis by its anti‐allergic and anti‐inflammatory properties.