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Macrophage ferroportin serves as a therapeutic target against bacteria-induced acute lung injury by promoting barrier restoration

Hanbin Wang, Congli Zeng, Gan Luo, Yaqi Sun, Jue Zhang, Zhipeng Xu, Yuqian Guo, Hui Ye, Jiali Mao, Shiyu Chen, Yan Zhang, Kai Zhang, Marcos F. Vidal Melo, Xiangming Fang

2022iScience10 citationsDOIOpen Access PDF

Abstract

Acute respiratory distress syndrome (ARDS) is a common lung disorder that involves severe inflammatory damage in the pulmonary barrier, but the underlying mechanisms remain elusive. Here, we demonstrated that pulmonary macrophages originating from ARDS patients and mice caused by bacteria were characterized by increased expression of ferroportin (FPN). Specifically deleting FPN in myeloid cells conferred significant resistance to bacterial infection with improved survival by decreasing extracellular bacterial growth and preserving pulmonary barrier integrity in mice. Mechanistically, macrophage FPN deficiency not only limited the availability of iron to bacteria, but also promoted tissue restoration via growth factor amphiregulin, which is regulated by cellular iron-activated Yes-associated protein signaling. Furthermore, pharmacological treatment with C-Hep, the self-assembled N-terminally cholesterylated minihepcidin that functions in the degradation of macrophage FPN, protected against bacteria-induced lung injury. Therefore, therapeutic strategies targeting the hepcidin-FPN axis in macrophages may be promising for the clinical treatment of acute lung injury.

Topics & Concepts

ARDSFerroportinMacrophageLungCancer researchInflammationImmunologyHepcidinMedicineBiologyCell biologyMicrobiologyChemistryInternal medicineBiochemistryIn vitroExtracellular vesicles in diseaseHemoglobinopathies and Related DisordersIron Metabolism and Disorders
Macrophage ferroportin serves as a therapeutic target against bacteria-induced acute lung injury by promoting barrier restoration | Litcius