Activin A-activated ALK4 induces pathogenic Th17 involvement in endothelial–mesenchymal transition in systemic lupus erythematosus-associated pulmonary arterial hypertension
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Objective
Autoimmune diseases, such as systemic lupus erythematosus (SLE), are associated with pulmonary arterial hypertension (PAH), a condition that can lead to heart failure. However, whether T cells also contribute to the occurrence of PAH in SLE, has not been clarified. The objective of this study was to elucidate the role of Activin A signaling in the effector cells mainly involved in SLE-PAH.
Methods
CyTOF analysis was performed to identify the major affected immune cell population after the treatment in SLE-PAH patients. ELISA showed the serum Activin A and IL-17 levels were significantly higher in patients with SLE-PAH compared to SLE alone and healthy donors. We also conducted Th17 cells coculturing with pulmonary microvascular endothelial cells(PMECs) and constructed a SLE-PH mouse model and CD4 + T cells depletion mice together with two rat models to identify the converged target.
Results
The reduced CD4 + T cell number was detected in SLE-PAH patients after treatment. Activin A signals via ALK4 in both Th17 cells and PMECs. When ALK4 was overexpressed in Th17 cells, IL-6 and CTGF gene expression was significantly increased in cocultured PMECs. We found severe SLE-PH in mice by overexpression ALK4, and alleviated hemodynamic changes in CD4 + T cells depletion mice. ALK4 inhibitor TEW is effective to treat PAH by repressing CTGF transcription, which was facilitated by synergistic increases in pSmad2 and pSTAT3 levels downstream of ALK4 activation.
Conclusion
Our findings suggest that Activin A activates ALK4 in Th17 cells to induce IL-17 secretion, meanwhile activated ALK4 via Smad2 phosphorylation to induce EndoMT in hPMECs, indicating that ALK4 is a promising therapeutic target for SLE-PAH.
