Abstract
Eosinophil infiltration is considered a hallmark in allergic airway inflammation, and the blockade of eosinophil differentiation may be an effective approach for treating eosinophil-related disorders. Mammalian target of rapamycin (mTOR) is a vital modulator in cell growth control and related diseases, and we have recently demonstrated that rapamycin can suppress eosinophil differentiation in allergic airway inflammation. Considering its critical role in haematopoiesis, we further investigated the role of mTOR in eosinophil differentiation in the context of asthmatic pathogenesis. Intriguingly, the inhibition of mTOR, either by genetic deletion or by another pharmacological inhibitor torin-1, accelerated the eosinophil development in the presence of IL-5. However, this was not observed to have any considerable effect on eosinophil apoptosis. The effect of mTOR in eosinophil differentiation was mediated by Erk signalling. Moreover, myeloid specific knockout of mTOR or Rheb further augmented allergic airway inflammation in mice after allergen exposure. Ablation of mTOR in myeloid cells also resulted in an increased number of eosinophil lineage-committed progenitors (Eops) in allergic mice. Collectively, our data uncovered the differential effects of mTOR in the regulation of eosinophil development, likely due to the distinct functions of mTOR complex 1 or 2, which thus exerts a pivotal implication in eosinophil-associated diseases.
Highlights
Eosinophil infiltration is considered a hallmark in allergic airway inflammation, and the blockade of eosinophil differentiation may be an effective approach for treating eosinophil-related disorders
Mammalian target of rapamycin is a serine/threonine protein kinase known for its varieties of regulatory roles in cell survival, cell differentiation, protein synthesis, and glycolysis14,15. mTOR interacts with various proteins to form two distinct components, named mTOR complex 1 and mTOR complex 2. mTORC1 contains a Raptor sensitive to rapamycin, whereas mTORC2 is insensitive to rapamycin due to the rapamycin insensitive domain Rictor
Eosinophil infiltration is regarded as a distinctive phenotype in asthmatic pathogenesis
Summary
Eosinophil infiltration is considered a hallmark in allergic airway inflammation, and the blockade of eosinophil differentiation may be an effective approach for treating eosinophil-related disorders. Mammalian target of rapamycin (mTOR) is a vital modulator in cell growth control and related diseases, and we have recently demonstrated that rapamycin can suppress eosinophil differentiation in allergic airway inflammation. Ablation of mTOR in myeloid cells resulted in an increased number of eosinophil lineage-committed progenitors (Eops) in allergic mice. In eosinophil-related research, the loss of mTOR can lead to autophagy activation, which has been observed in the peripheral blood eosinophils of severe asthma patients[20,21]. This indicates that mTOR may contribute to asthmatic pathogenesis through regulation of eosinophil development or function
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