Abstract
Sphingosine 1-phosphate (S1P) is a blood-borne lysosphingolipid that acts to promote endothelial cell (EC) barrier function. In plasma, S1P is associated with both high density lipoproteins (HDL) and albumin, but it is not known whether the carriers impart different effects on S1P signaling. Here we establish that HDL-S1P sustains EC barrier longer than albumin-S1P. We showed that the sustained barrier effects of HDL-S1P are dependent on signaling by the S1P receptor, S1P1, and involve persistent activation of Akt and endothelial NOS (eNOS), as well as activity of the downstream NO target, soluble guanylate cyclase (sGC). Total S1P1 protein levels were found to be higher in response to HDL-S1P treatment as compared with albumin-S1P, and this effect was not associated with increased S1P1 mRNA or dependent on de novo protein synthesis. Several pieces of evidence indicate that long term EC barrier enhancement activity of HDL-S1P is due to specific effects on S1P1 trafficking. First, the rate of S1P1 degradation, which is proteasome-mediated, was slower in HDL-S1P-treated cells as compared with cells treated with albumin-S1P. Second, the long term barrier-promoting effects of HDL-S1P were abrogated by treatment with the recycling blocker, monensin. Finally, cell surface levels of S1P1 and levels of S1P1 in caveolin-enriched microdomains were higher after treatment with HDL-S1P as compared with albumin-S1P. Together, the findings reveal S1P carrier-specific effects on S1P1 and point to HDL as the physiological mediator of sustained S1P1-PI3K-Akt-eNOS-sGC-dependent EC barrier function.
Highlights
Sphingosine 1-phosphate (S1P) promotes endothelial barrier and is associated with high density lipoproteins (HDL) and albumin in blood
Our findings indicate that HDL-S1P elicits specific effects on S1P1 trafficking that prolong S1P-S1P1 signaling involving persistent activation of Akt and endothelial NOS (eNOS)
We observed that the duration of the barrier promotion elicited by HDL-S1P lasted at least through 20 h after treatment, whereas the barrier-promoting effects of albumin-S1P subsided within 4 h of treatment
Summary
Results: HDL-S1P sustained barrier longer than albumin-S1P, reduced S1P receptor (S1P1) degradation, increased S1P1 cell surface and lipid raft levels, and persistently activated PI3K-Akt and eNOS. We showed that the sustained barrier effects of HDL-S1P are dependent on signaling by the S1P receptor, S1P1, and involve persistent activation of Akt and endothelial NOS (eNOS), as well as activity of the downstream NO target, soluble guanylate cyclase (sGC). The findings reveal S1P carrier-specific effects on S1P1 and point to HDL as the physiological mediator of sustained S1P1PI3K-Akt-eNOS-sGC-dependent EC barrier function. We evaluate the influence of albumin-S1P and HDL-S1P on endothelial cell barrier function and discover that the two have distinct effects on the persistence of S1P-dependent barrier enhancement that relate to differential effects on the trafficking and stabilization of the S1P receptor, S1P1, and its signaling
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