Heparan sulfate acts in synergy with tight junction through STAT3 signaling to maintain the endothelial barrier and prevent lung injury development.

Damage to glycocalyx and tight junction are key determinants of endothelial permeability, which is the main pathological feature of acute respiratory distress syndrome (ARDS). However, the effect of glycocalyx heparan sulfate (HS) on tight junction proteins occludin and ZO-1 has not been revealed. In this study, the mice exposed to LPS results showed that FITC-albumin infiltration, HS shedding, and tight junction protein impairment were most severe at 6 h of LPS treatment compared with those in other treatment times. The in vitro and vivo experiments revealed that tight junction damage, FITC-albumin infiltration, and pathological injury induced by LPS were significantly alleviated via protection of glycocalyx HS shedding. mRNA sequencing analysis demonstrated that the STAT signaling pathways played a crucial role in the inhibition of LPS-induced HS shedding in mice. Supplementation of exogenous HS in human umbilical vein endothelial cells (HUVECs) and mice ameliorated LPS-induced the tight junction barrier defect by inhibiting STAT3 phosphorylation. Further analysis uncovered that intervention of STAT3 signaling significantly alleviated LPS-induced tight junction proteins damage and vascular permeability in HUVECs and mice. Mechanistically, HS modulated tight junction proteins by STAT3 signaling, which might directly bind to the promoter regions of occludin and ZO-1. In conclusion, glycocalyx HS played an important role in protecting endothelial barrier function and preventing injury development, in synergy with tight junction through STAT3 signaling, which further alleviated pulmonary edema.