Macrophage ferroptosis potentiates GCN2 deficiency induced pulmonary venous arterialization

Abstract Pulmonary veno-occlusive disease (PVOD) is a fatal disease characterized by the remodelling of pulmonary veins and haemosiderin accumulation in macrophages. Although GCN2 deficiency have been reported in PVOD patients, the underlying mechanism by which GCN2 deficiency affects the pulmonary venous cells and the surrounding cells, remains unclear. Here, we perform immunohistochemistry and scRNA-sequencing analyses to show that macrophages are the major population affected by GCN2 deficiency and ferroptosis pathway-related genes are upregulated in lung macrophages of PVOD patients. Treatment with the specific ferroptosis inhibitor ferrostatin-1 (Fer-1) reverses the changes in haemodynamic indices observed in Eif2ak4 K1488X/K1488X hypoxia mice and PVOD model rats. Furthermore, GCN2 deficiency increases HMOX1 and iron levels to facilitate ferroptosis in macrophages, and enhances arterial marker expression in venous endothelial cells (VECs). Specifically, spatial transcriptome analysis reveals increased expression of NRP1, KDR and EFNB2 through ETS1 in VECs from PVOD patients. Our findings suggest the potential of targeting macrophage ferroptosis as a therapeutic strategy for treating related vascular diseases, and of using NRP1/KDR/EFNB2 expression as a specific marker set for venous arterialization.