- Bulek, Katarzyna;
- Chen, Xing;
- Parron, Vandy;
- Sundaram, Aparna;
- Herjan, Tomasz;
- Ouyang, Suidong;
- Liu, Caini;
- Majors, Alana;
- Zepp, Jarod;
- Gao, Ji;
- Dongre, Ashok;
- Bodaszewska-Lubas, Malgorzata;
- Echard, Arnaud;
- Aronica, Mark;
- Carman, Julie;
- Garantziotis, Stavros;
- Sheppard, Dean;
- Li, Xiaoxia
IL-17A is a critical proinflammatory cytokine for the pathogenesis of asthma including neutrophilic pulmonary inflammation and airway hyperresponsiveness. In this study, by cell type-specific deletion of IL-17R and adaptor Act1, we demonstrated that IL-17R/Act1 exerts a direct impact on the contraction of airway smooth muscle cells (ASMCs). Mechanistically, IL-17A induced the recruitment of Rab35 (a small monomeric GTPase) and DennD1C (guanine nucleotide exchange factor [GEF]) to the IL-17R/Act1 complex in ASMCs, resulting in activation of Rab35. Rab35 knockdown showed that IL-17A-induced Rab35 activation was essential for protein kinase Cα (PKCα) activation and phosphorylation of fascin at Ser39 in ASMCs, allowing F-actin to interact with myosin to form stress fibers and enhance the contraction induced by methacholine. PKCα inhibitor or Rab35 knockdown indeed substantially reduced IL-17A-induced stress fiber formation in ASMCs and attenuated IL-17A-enhanced, methacholine-induced contraction of airway smooth muscle. Taken together, these data indicate that IL-17A promotes airway smooth muscle contraction via direct recruitment of Rab35 to IL-17R, followed by PKCα activation and stress fiber formation.