The specific role of ceramides in pulmonary microvascular endothelial cell (PMVEC) barrier dysfunction remains unclear. In the present study, pretreatment with pan-caspase inhibitors significantly reduced LPS-induced PMVEC apoptosis and helped to stimulate PMVEC barrier reconstruction after 12 h but had no effect on PMVEC barrier dysfunction in the first 8 h. Further studies showed that imipramine, an acid sphingomyelinase (ASMase) inhibitor, significantly inhibited LPS-induced barrier dysfunction, while an siRNA targeting serine palmityl transferase subunit 1 (SPTLC1) and the pharmacological inhibitor myriocin did not inhibit early acute barrier dysfunction but significantly inhibited PMVEC apoptosis and apoptosis-dependent delayed barrier dysfunction. In addition, LPS was shown to activate RhoA by inducing transient receptor potential channel 6 (TRPC6) overexpression and calcium influx through the ASMase/ceramide pathway, and activation of RhoA further induced the cytoskeletal rearrangement of PMVECs and destruction of intercellular junctions, ultimately leading to early acute PMVEC barrier dysfunction. However, regarding apoptosis-dependent delayed barrier dysfunction, the ceramide-induced de novo synthesis pathway in paracellular cells induced the apoptosis of PMVECs, in which Txnip overexpression inhibited Trx activity and subsequently activated ASK1 in the context of LPS-induced PMVEC apoptosis, acting upstream of the ceramide-induced activation of p38 MAPK and JNK. At the same time, in rats with LPS- or exogenous C8 ceramide-induced ALI, ceramide was demonstrated to play an important role in lung injury by inducing the Txnip/TRX/ASK1/P38 and JNK pathways. Thus, the Txnip/TRX/ASK1/p38 and JNK pathways might be involved in ceramide-mediated PMVEC apoptosis in LPS-induced ALI.
Read full abstract