Abstract
INTRODUCTION: Fam134B-mediated endoplasmic reticulum (ER)-phagy is one of the key mechanisms for maintaining functional homeostasis of ER and cell survival. In fact, Fam134B-mediated ER-phagy has been proved to exert a double-edged sword in response to inflammatory and oxidative stress, which is evidenced by the recovery effect on an appropriate organellar autophagy whereas the activation of cell death in excessive condition. However, its potential role and significance in regulating the immunoreaction within the framework of sepsis and its associated mechanisms remain to be elucidated. OBJECTIVES: The present research aimed to explore the effects of FAM134B on mediating ER-phagy in DCs after sepsis. METHODS: By use of DCs from FAM134B(-/-) mice stimulated with LPS in vitro and CLP-induced septic model in vivo with CD11c(cre)FAM134B(fl/fl) mice, the impact of FAM134B-mediated ER-phagy on ferroptosis and immune function of DCs will be analyzed adequately. Moreover, interventions targeted on the signaling molecular of ARF6, which locates on organelle plasma membrane, will be further employed to clarify the main signaling transduction in ferroptosis of DCs. RESULTS: The upregulation of FAM134B upon septic challenge could exert a protective impact on ferroptosis and immune function of dendritic cells (DCs). FAM134B -mediated ER-phagy was activated in DCs stimulated by LPS (1 μg/ml) at the peak time of 12 h, which presented a parallel impact on DCs. DCs in genetic knockout mice for FAM134B (FAM134B(-/-)) showed an enhanced ferroptosis. Additionally, the protect effect of FAM134B on ferroptosis was proved to be related to ARF6 upregulation, eventually preventing from lipid peroxidation of plasmalemma. CONCLUSION: This study demonstrated the intrinsic connection between FAM134B -mediated ER-phagy, ferroptosis, as well as sepsis-induced immune dysfunction, which might provide new targeted strategies for immune modulation in septic complications.