Conventional CD4+ T cells are composed of naïve, pathogen-specific memory, and pathogen-independent memory-phenotype (MP) cells under steady state. Naïve and pathogen-specific memory cells play key roles in adaptive immunity, whereas the homeostatic mechanisms regulating the generation of MP cells and their biological functions are unclear. Here we show that MP cells are autonomously generated from peripheral naïve cells in the absence of infectious stimulation in a TCR- and CD28-dependent manner. We further demonstrate that MP cells contain a T-bethi subpopulation that is continuously generated by environmental IL-12 and rapidly produces IFN-γ in response to IL-12 in the absence of pathogen recognition. Importantly, these cells can provide nonspecific host resistance against Toxoplasma gondii infection while enhancing the adaptive CD4+ T cell responses. Together, these findings reveal that MP cells are continuously generated from naïve precursors and possess a previously undescribed innate immune function by which they produce an early, Th1-like protective response against pathogens.
Background: Secretoglobin (SCGB) 3A2, a novel, lung-enriched, cytokine-like, secreted protein of small molecular weight, was demonstrated to exhibit various biological functions including anti-inflammatory, antifibrotic and growth-factor activities. Anti-inflammatory activity was uncovered using the ovalbumin-induced allergic airway inflammation model. However, further validation of this activity using knockout mice in a different allergic inflammation model is necessary in order to establish the antiallergic inflammatory role for this protein. Methods:Scgb3a2-null (Scgb3a2-/-) mice were subjected to nasal inhalation of Dermatophagoides pteronyssinus extract for 5 days/week for 5 consecutive weeks; control mice received nasal inhalation of saline as a comparator. Airway inflammation was assessed by histological analysis, the number of inflammatory cells and various Th2-type cytokine levels in the lungs and bronchoalveolar lavage fluids by qRT-PCR and ELISA, respectively. Results: Exacerbated inflammation was found in the airway of Scgb3a2-/- mice subjected to house dust mite (HDM)-induced allergic airway inflammation compared with saline-treated control groups. All the inflammation end points were increased in the Scgb3a2-/- mice. The Ccr4 and Ccl17 mRNA levels were higher in HDM-treated lungs of Scgb3a2-/- mice than wild-type mice or saline-treated Scgb3a2-/- mice, whereas no changes were observed for Ccr3 and Ccl11 mRNA levels. Conclusions: These results demonstrate that SCGB3A2 has an anti-inflammatory activity in the HDM-induced allergic airway inflammation model, in which SCGB3A2 may modulate the CCR4-CCL17 pathway. SCGB3A2 may provide a useful tool to treat allergic airway inflammation, and further studies on the levels and function of SCGB3A2 in asthmatic patients are warranted.
CD4+ T cells are composed of naïve, pathogen-specific memory, and pathogen-independent memory-phenotype (MP) cells. Naïve and pathogen-specific memory cells play key roles in adaptive immunity while the homeostatic mechanisms regulating the generation of MP cells and their biological functions are unclear. In this work we show that MP cells are autonomously generated from peripheral naïve cells in the absence of infectious stimulation in a TCR- and CD28-dependent manner. We further demonstrate that MP cells contain a T-bethi subpopulation that is continuously generated by environmental IL-12 and rapidly produces IFN-γ in response to IL-12 in the absence of pathogen recognition. Importantly, these cells can provide nonspecific host resistance against Toxoplasma gondii infection while enhancing the adaptive CD4+ T cell responses. Together, these findings reveal that MP cells are continuously generated from naïve precursors and possess a novel innate immune function by which they produce an early, Th1-like protective response against pathogens.
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