BACKGROUND: Recent evidence indicates that TNF-α is a key mediator of the development of dsRNA-enhanced Th2 cell response to inhaled allergens. Natural killer T (NKT) cells may be a candidate source of Th2-polarizing cytokines. OBJECTIVE: The objective of this study was to evaluate the role of lung NKT cells on the development of TNF-α-mediated Th2 cell response. METHODS: A virus-associated asthma mouse model was generated by the administration of ovalbumin (OVA, 75 μg) and poly[I:C] (0.1 μg). Role of NKT and type I NKT cells was evaluated using CD1d- and Jα18-deficient mice. TNF-α receptors (TNFRs) were antagonized by using TNFR blocking peptides. RESULTS: The number of infiltrated NKT cells was increased in a virus-associated asthma mouse model. Increase in Th2 and Th17 cytokine levels in wild-type mice were abolished in both CD1d- and Jα18-deficient mice. In vitro co-culture experiments with alveolar macrophages and NKT cells showed that TNF-α produced by macrophages in the presence of poly[I:C] acts on NKT cells, inducing production of Th2-polarizing cytokines. Moreover, the induction of Th2-polarizing cytokines by poly[I:C] or recombinant TNF-α was impaired in both CD1d- and Jα18-deficient mice and that the above effect was reversed by a TNF-α receptor-2 (TNFR2) blocking peptide, but not by a TNFR1 blocker. CONCLUSIONS: These findings suggest that NKT cells play a key role in the development of Th2 cell response to inhaled allergens and that TNF-α produced by alveolar macrophages induces Th2 cell response, via TNFR2 on NKT cells.
BACKGROUND: Recent evidence indicates that TNF-α is a key mediator of the development of dsRNA-enhanced Th2 cell response to inhaled allergens. Natural killer T (NKT) cells may be a candidate source of Th2-polarizing cytokines. OBJECTIVE: The objective of this study was to evaluate the role of lung NKT cells on the development of TNF-α-mediated Th2 cell response. METHODS: A virus-associated asthmamouse model was generated by the administration of ovalbumin (OVA, 75 μg) and poly[I:C] (0.1 μg). Role of NKT and type I NKT cells was evaluated using CD1d- and Jα18-deficient mice. TNF-α receptors (TNFRs) were antagonized by using TNFR blocking peptides. RESULTS: The number of infiltrated NKT cells was increased in a virus-associated asthmamouse model. Increase in Th2 and Th17 cytokine levels in wild-type mice were abolished in both CD1d- and Jα18-deficient mice. In vitro co-culture experiments with alveolar macrophages and NKT cells showed that TNF-α produced by macrophages in the presence of poly[I:C] acts on NKT cells, inducing production of Th2-polarizing cytokines. Moreover, the induction of Th2-polarizing cytokines by poly[I:C] or recombinant TNF-α was impaired in both CD1d- and Jα18-deficient mice and that the above effect was reversed by a TNF-α receptor-2 (TNFR2) blocking peptide, but not by a TNFR1 blocker. CONCLUSIONS: These findings suggest that NKT cells play a key role in the development of Th2 cell response to inhaled allergens and that TNF-α produced by alveolar macrophages induces Th2 cell response, via TNFR2 on NKT cells.
Authors: Jun Pyo Choi; Sang Min Lee; Hyun Il Choi; Min Hye Kim; Seong Gyu Jeon; Myoung Ho Jang; Young Koo Jee; Sanghwa Yang; Young Joo Cho; Yoon Keun Kim Journal: Allergy Asthma Immunol Res Date: 2016-07 Impact factor: 5.764