Shifts in Lung Lymphocyte Profiles Correlate with the Sequential Development of Acute Allergic and Chronic Tolerant Stages in a Murine Asthma Model

Yiamouyiannis, Carmen A.; Schramm, Craig M.; Puddington, Lynn; Stengel, Peter W.; Baradaran-Hosseini, Ebrahim; Wolyniec, Walter W.; Whiteley, Herbert E.; Thrall, Roger S.

doi:10.1016/s0002-9440(10)65449-1

Cited by 95 publications

(112 citation statements)

References 38 publications

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“…11 Briefly, they were given three weekly intraperitoneal injections of a suspension containing 25 g of OVA (grade V; Sigma Chemical Co., St. Louis, MO) and 2 mg of aluminum hydroxide (alum) in 0.5 ml of saline. One week after the last injection the mice were exposed to 1% aerosolized OVA according to one of five protocols: 1) wild-type and TCR␦ Ϫ/Ϫ mice exposed to OVA 1 hour/day for 10 days (acute); 2) wild-type and TCR␦ Ϫ/Ϫ mice exposed to OVA 1 hour/day for 10 days followed by 1 hour/day, 5 days/week for 4 weeks and then 1 hour/day for 10 days (6-week-continuous); 3) wild-type and TCR␦ Ϫ/Ϫ mice exposed to OVA 1 hour/day for 10 days followed by no aerosol exposures for 4 weeks and then aerosol exposures of 1 hour/day for 10 days (6-week-discontinuous); 4) wildtype mice treated according to the continuous protocol above, then exposed to aerosolized OVA 5 days/week for an additional 4-week period, followed by 1 hour/day for 7 to 10 days (11-week-continuous); and 5) wild-type mice treated according to the continuous protocol above, then had OVA aerosols stopped and then resumed 4 weeks later at 1 hour/day for 7 to 10 days (11-week-discontinuous).…”

Section: Ova Exposure Protocolmentioning

confidence: 99%

“…As previously reported, this aerosol system generated OVA particles of 1.4-mol/L mass median aerodynamic diameter and 1.6-m geometric standard deviations. 11 Exposure to the 1% OVA aerosol for 1 hour resulted in an average inhaled OVA dose of 80 g/mouse. 11 Twentyfour hours after the final aerosol exposure, the mice were sacrificed by ketamine/xylazine overdose and exsanguination, and analyses of bronchoalveolar lavage (BAL), lung tissue, and blood samples were performed.…”

Section: Ova Exposure Protocolmentioning

confidence: 99%

“…We have recently demonstrated that C57BL/6J mice undergo a biphasic response to aerosolized ovalbumin (OVA) exposure. 11 After initial immunization and daily aerosol challenge with OVA for 3 to 10 days, mice develop allergic airway disease, characterized by antigen-specific IgE production, airway eosinophilia, increased pulmonary B and T lymphocytes, and airway hyperresponsiveness. In contrast, 6-weekcontinuous daily aerosol challenge with OVA results in attenuation of these allergic responses.…”

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confidence: 99%

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Chronic Inhaled Ovalbumin Exposure Induces Antigen-Dependent but Not Antigen-Specific Inhalational Tolerance in a Murine Model of Allergic Airway Disease

Schramm

Puddington

et al. 2004

The American Journal of Pathology

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Sensitized mice acutely challenged with inhaled ovalbumin (OVA) develop allergic airway inflammation, characterized by OVA-specific IgE production, airway eosinophilia, increased pulmonary B and T lymphocytes, and airway hyperreactivity. In this study, a chronic exposure model was developed and two distinct patterns of response were observed. Discontinuous inhalational exposure to OVA (6 weeks) produced airway inflammation and hyperreactivity that were similar to acute (10 days) responses. Continuous inhalational exposure to OVA (6 or 11 weeks) resulted in attenuation of airway eosinophilia and hyperresponsiveness without reduction of OVA-specific IgE and IgG 1 levels. The inhibition of airway inflammation was dependent on continuous exposure to antigen, because continuously exposed mice with attenuated inflammatory responses redeveloped allergic airway disease if the OVA aerosols were interrupted and then restarted (11-week-discontinuous). Inhalational tolerance induced by continuous OVA exposure demonstrated bystander suppression of cockroach allergen-mediated airway eosinophilia. These findings may be attributed to changes in production of the anti-inflammatory cytokine interleukin-10 during continuous OVA aerosol exposure. The symptomatic and asymptomatic allergic responses in human asthmatics could be explained by similar variable or discontinuous exposures to aeroantigens. Throughout the past 40 years, the prevalence of allergic disease, including atopic dermatitis, hay fever, and asthma, has risen dramatically in the developed world. This disturbing trend is documented best for asthma. 1,2 A wealth of clinical and experimental data suggests that allergic asthma is due to an aberrant lung immune response mediated through T-helper type 2 cells (Th2 cells) and associated cytokine-signaling pathways. The normal lung is able to distinguish between airborne antigens associated with infectious agents, to which an immunological response is generated, and harmless inhaled antigens, which are usually ignored. In the asthmatic lung, some of these normally harmless antigens activate specific Th2 cells and elicit an inflammatory response characterized by Th2 cytokine production, eosinophilic airway inflammation, airway hyperresponsiveness, and bronchoconstriction. These pulmonary responses may be accompanied by systemic allergic sensitization, manifested by elevated titers of antigen-specific IgE. The mechanisms that control CD4 ϩ T lymphocyte polarization to allergenic Th2 phenotypes are incompletely understood but seem to involve genetic predispositions, local factors such as pre-existing cytokine concentrations and inflammation, and antigenic factors (ie, potency, dose, and duration of exposure).Several investigators have used mouse models to investigate the mechanisms of inhalational tolerance to antigens 3,4 or of allergic airway sensitization. [5][6][7][8][9][10] However, these responses have typically been assessed in isolation from each other. We have recently demonstrated that C57BL/6J mice undergo a biphasic...

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Section: Ova Exposure Protocolmentioning

confidence: 99%

Section: Ova Exposure Protocolmentioning

confidence: 99%

mentioning

confidence: 99%

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Chronic Inhaled Ovalbumin Exposure Induces Antigen-Dependent but Not Antigen-Specific Inhalational Tolerance in a Murine Model of Allergic Airway Disease

Schramm

Puddington

et al. 2004

The American Journal of Pathology

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“…γδ T cells have been shown to migrate into the airways during allergic inflammation highly controlled by a chemotactic gradient of chemokines produced in tissue [5,[7][8][9][10][11]. We have previously demonstrated that allergen-induced γδ T-cell accumulation is * These authors contributed equally to this work.…”

Section: Introductionmentioning

confidence: 99%

“…This unique subset of lymphocytes can provide rapid tissue-specific immune responses, without the requirement of antiCorrespondence: Dr. Carmen Penido e-mail: cpenido@far.fiocruz.br gen presentation or clonal expansion, and is able to produce a large repertory of Th1-, Th2-, and Th17-associated cytokines [2][3][4][5][6]. These characteristics make γδ T cells a crucial first line of defense during infection, tissue damage, or stress.γδ T cells have been shown to migrate into the airways during allergic inflammation highly controlled by a chemotactic gradient of chemokines produced in tissue [5,[7][8][9][10][11]. We have previously demonstrated that allergen-induced γδ T-cell accumulation is * These authors contributed equally to this work.…”

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confidence: 99%

CCL25 induces α₄β₇ integrin‐dependent migration of IL‐17⁺γδ T lymphocytes during an allergic reaction

Costa¹,

Bornstein²,

Candéa³

et al. 2012

Eur J Immunol

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Herein, we provide evidence that during allergic inflammation, CCL25 induces the selective migration of IL-17 + γδ T cells mediated by α 4 β 7 integrin. Intrapleural injection of CCL25 into ovalbumin (OVA)-immunized C57BL/6 mice triggered the accumulation of γδ T lymphocytes expressing CCR9 (CCL25 receptor) and α 4 β 7 integrin in the pleura, but failed to attract αβ T lymphocytes. CCL25 attracted CCR6 + γδ T cells producing IL-17 (but not IFN-γ or IL-4). OVA challenge triggered increased production of CCL25 followed by the accumulation of CCR9 + , α 4 β 7 + , and CCR6 + /IL-17 + γδ T cells into the pleural cavities of OVA-immunized mice, which was inhibited by the in vivo neutralization of CCL25. The in vivo blockade of α 4 β 7 integrin also inhibited the migration of IL-17 + γδ T lymphocytes (but not of αβ T lymphocytes) into mouse pleura after OVA challenge, suggesting that the CCL25/α 4 β 7 integrin pathway is selective for γδ T cells. In addition, α 4 β 7 integrin blockade impaired the in vitro transmigration of γδ T cells across endothelium (which expresses α 4 β 7 ligands VCAM-1 and MadCAM-1), which was induced by CCL25 and by cell-free pleural washes recovered from OVA-challenged mice. Our results reveal that during an allergic reaction, CCL25 drives IL-17 + γδ T-cell mobilization to inflamed tissue via α 4 β 7 integrin and modulates IL-17 levels. Keywords: Adhesion molecules IntroductionLymphocytes bearing the γδ T-cell receptor (TCR) comprise a minor T-lymphocyte subset in blood and secondary lymphoid tissues and are preferentially localized in epithelial and mucosal tissues [1,2]. This unique subset of lymphocytes can provide rapid tissue-specific immune responses, without the requirement of antiCorrespondence: Dr. Carmen Penido e-mail: cpenido@far.fiocruz.br gen presentation or clonal expansion, and is able to produce a large repertory of Th1-, Th2-, and Th17-associated cytokines [2][3][4][5][6]. These characteristics make γδ T cells a crucial first line of defense during infection, tissue damage, or stress.γδ T cells have been shown to migrate into the airways during allergic inflammation highly controlled by a chemotactic gradient of chemokines produced in tissue [5,[7][8][9][10][11]. We have previously demonstrated that allergen-induced γδ T-cell accumulation is * These authors contributed equally to this work.www.eji-journal.eu Eur. J. Immunol. 2012. 42: 1250-1260 Immunomodulation 1251 paralleled with a marked production of chemokines in the tissue, including CCL25/TECK [11]. CCL25 is mostly described as a homeostatic chemokine that plays a major role in T-cell development in the thymus and in intraepithelial lymphocytes (IELs) homing into small intestine mucosa [12]. Recent data have provided evidence that CCL25 production increases during inflammatory processes that take place at nonmucosal tissues, such as autoimmune arthritis, atherosclerosis, and allergy [11,13,14]. Moreover, we and others have shown that γδ T lymphocytes migrate in vitro toward CCL25, via its counterpart receptor CCR9 [11,...

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Characterization of a novel, papain‐inducible murine model of eosinophilic rhinosinusitis

Tharakan

Dobzanski

London

et al. 2018

Int Forum Allergy Rhinol

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Shifts in Lung Lymphocyte Profiles Correlate with the Sequential Development of Acute Allergic and Chronic Tolerant Stages in a Murine Asthma Model

Cited by 95 publications

References 38 publications

Chronic Inhaled Ovalbumin Exposure Induces Antigen-Dependent but Not Antigen-Specific Inhalational Tolerance in a Murine Model of Allergic Airway Disease

Chronic Inhaled Ovalbumin Exposure Induces Antigen-Dependent but Not Antigen-Specific Inhalational Tolerance in a Murine Model of Allergic Airway Disease

CCL25 induces α₄β₇ integrin‐dependent migration of IL‐17⁺γδ T lymphocytes during an allergic reaction

Characterization of a novel, papain‐inducible murine model of eosinophilic rhinosinusitis

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Shifts in Lung Lymphocyte Profiles Correlate with the Sequential Development of Acute Allergic and Chronic Tolerant Stages in a Murine Asthma Model

Cited by 95 publications

References 38 publications

Chronic Inhaled Ovalbumin Exposure Induces Antigen-Dependent but Not Antigen-Specific Inhalational Tolerance in a Murine Model of Allergic Airway Disease

Chronic Inhaled Ovalbumin Exposure Induces Antigen-Dependent but Not Antigen-Specific Inhalational Tolerance in a Murine Model of Allergic Airway Disease

CCL25 induces α4β7 integrin‐dependent migration of IL‐17+γδ T lymphocytes during an allergic reaction

Characterization of a novel, papain‐inducible murine model of eosinophilic rhinosinusitis

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CCL25 induces α₄β₇ integrin‐dependent migration of IL‐17⁺γδ T lymphocytes during an allergic reaction