Abstract
Recent studies have demonstrated that Bacillus subtilis-derived poly-gamma glutamic acid (γPGA) treatment suppresses the development of allergic diseases such as atopic dermatitis (AD). Although basophils, an innate immune cell, are known to play critical roles in allergic immune responses and repeated long-term administration of γPGA results in decreased splenic basophils in an AD murine model, the underlying mechanisms by which γPGA regulates basophil frequency remain unclear. To investigate how γPGA modulates basophils, we employed basophil-mediated Th2 induction in vivo model elicited by the allergen papain protease. Repeated injection of γPGA reduced the abundance of basophils and their production of IL4 in mice, consistent with our previous study using NC/Nga AD model mice. The depletion of basophils by a single injection of γPGA was dependent on the TLR4/DC/IL12 axis. CD1d-dependent Vα14 TCR invariant natural killer T (iNKT) cells are known to regulate a variety of immune responses, such as allergy. Because iNKT cell activation is highly sensitive to IL12 produced by DCs, we evaluated whether the effect of γPGA on basophils is mediated by iNKT cell activation. We found that in vivo γPGA treatment did not induce the reduction of basophils in iNKT cell-deficient CD1d KO mice, suggesting the critical role of iNKT cells in γPGA-mediated basophil depletion at the early time points. Furthermore, increased apoptotic basophil reduction triggered by iNKT cells upon γPGA stimulation was mainly attributed to Th1 cytokines such as IFNγ and TNFα, consequently resulting in inhibition of papain-induced Th2 differentiation via diminishing basophil-derived IL4. Taken together, our results clearly demonstrate that γPGA-induced iNKT cell polarization toward the Th1 phenotype induces apoptotic basophil depletion, leading to the suppression of Th2 immune responses. Thus, elucidation of the crosstalk between innate immune cells will contribute to the design and development of new therapeutics for Th2-mediated immune diseases such as AD.
Highlights
CD4+ T cells can be divided into two main subsets (Th1 and Th2) based on their cytokine production: Th1 cells produce IFNγ, IL2, and TNFα/β, whereas Th2 cells produce IL4, IL5, IL10, and IL13
Engagement of cell death surface receptor Fas by Fas ligand (FasL) has an important function in immune cell homeostasis and contributes to the cytotoxic activity of cytotoxic T, natural killer (NK), and invariant natural killer T (iNKT) cells [30], and we found that administration of γPGA increased FasL expression on NKT cells compared with PBS-treated mice (Fig 4A)
We examined whether the addition of iNKT cells and the neutralization of iNKT cell-derived cytokines can affect the basophil apoptosis elicited by γPGA treatment
Summary
CD4+ T cells can be divided into two main subsets (Th1 and Th2) based on their cytokine production: Th1 cells produce IFNγ, IL2, and TNFα/β, whereas Th2 cells produce IL4, IL5, IL10, and IL13. The identification of APCs responsible for producing IL4 has remained elusive, but recent studies have suggested that basophils, one of innate effector cells involved in initiating allergic immune responses, can induce Th2 differentiation in response to a protease allergen such as papain through the production of IL4 and/or TSLP [8] and can act as APCs to promote Th2 immune responses [9, 10]. These findings provide fundamental information for designing a better strategy for the treatment of allergic diseases via basophil-based immune modulation
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