Abstract
Mitochondrial metabolism is known to be important for T-cell activation. However, its involvement in effector T-cell differentiation has just begun to gain attention. Importantly, how metabolic pathways are integrated with T-cell activation and effector cell differentiation and function remains largely unknown. We sought to test our hypothesis that RhoA GTPase orchestrates glycolysis for TH2 cell differentiation and TH2-mediated allergic airway inflammation. Conditional RhoA-deficient mice were generated by crossing RhoA(flox/flox) mice with CD2-Cre transgenic mice. Effects of RhoA on TH2 differentiation were evaluated based on invitro TH2-polarized culture conditions and invivo in ovalbumin-induced allergic airway inflammation. Cytokine levels were measured by using intracellular staining and ELISA. T-cell metabolism was measured by using the Seahorse XF24 Analyzer and flow cytometry. Disruption of RhoA inhibited T-cell activation and TH2 differentiation invitro and prevented the development of allergic airway inflammation invivo, with no effect on TH1 cells. RhoA deficiency in activated T cells led to multiple defects in metabolic pathways, such as glycolysis and oxidative phosphorylation. Importantly, RhoA couples glycolysis to TH2 cell differentiation and allergic airway inflammation through regulating IL-4 receptor mRNA expression and TH2-specific signaling events. Finally, inhibition of Rho-associated protein kinase, an immediate downstream effector of RhoA, blocked TH2 differentiation and allergic airway inflammation. RhoA is a key component of the signaling cascades leading to TH2 differentiation and allergic airway inflammation at least in part through control of T-cell metabolism and the Rho-associated protein kinase pathway.
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