Litcius/Paper detail

Exercise activates interferon response of the liver via Gpld1 to enhance antiviral innate immunity

Tengfei Ren, Jiuyi He, Tingting Zhang, An-Xing Niu, Yukang Yuan, Yibo Zuo, Ying Miao, Zhang Hongguang, Lichao Zang, Caixia Qiao, Xinhua Cao, Xinyu Yang, Zhijin Zheng, Yang Xu, Depei Wu, Hui Zheng

2024Science Advances18 citationsDOIOpen Access PDF

Abstract

Healthy behavioral patterns could modulate organ functions to enhance the body’s immunity. However, how exercise regulates antiviral innate immunity remains elusive. Here, we found that exercise promotes type I interferon (IFN-I) production in the liver and enhances IFN-I immune activity of the body. Despite the possibility that many exercise-induced factors could affect IFN-I production, we identified Gpld1 as a crucial molecule, and the liver as the major organ to promote IFN-I production after exercise. Exercise largely loses the efficiency to induce IFN-I in Gpld1 −/− mice. Further studies demonstrated that exercise-produced 3-hydroxybutanoic acid (3-HB) critically induces Gpld1 expression in the liver. Gpld1 blocks the PP2A-IRF3 interaction, thus enhancing IRF3 activation and IFN-I production, and eventually improving the body’s antiviral ability. This study reveals that exercise improves antiviral innate immunity by linking the liver metabolism to systemic IFN-I activity and uncovers an unknown function of liver cells in innate immunity.

Topics & Concepts

Innate immune systemImmunityInterferonIRF3ImmunologyImmune systemBiologyAcquired immune systemExercise and Physiological ResponsesAdipose Tissue and MetabolismImmune Cell Function and Interaction
Exercise activates interferon response of the liver via Gpld1 to enhance antiviral innate immunity | Litcius