Abstract
The bioactive molecule sphingosine 1-phosphate (S1P) is abundantly stored in platelets and can be released extracellularly. However, although they have high sphingosine (Sph) kinase activity, platelets lack the de novo sphingolipid biosynthesis necessary to provide the substrates. Here, we reveal a generation pathway for Sph, the precursor of S1P, in human platelets. Platelets incorporated extracellular 3H-labeled Sph much faster than human megakaryoblastic cells and rapidly converted it to S1P. Furthermore, Sph formed from plasma sphingomyelin (SM) by bacterial sphingomyelinase (SMase) and neutral ceramidase (CDase) was rapidly incorporated into platelets and converted to S1P, suggesting that platelets use extracellular Sph as a source of S1P. Platelets abundantly express SM, possibly supplied from plasma lipoproteins, at the cell surface. Treating platelets with bacterial SMase resulted in Sph generation at the cell surface, conceivably by the action of membrane-bound neutral CDase. Simultaneously, a time-dependent increase in S1P levels was observed. Finally, we demonstrated that secretory acid SMase also induces S1P increases in platelets. In conclusion, our results suggest that in platelets, Sph is supplied from at least two sources: generation in the plasma followed by incorporation, and generation at the outer leaflet of the plasma membrane, initiated by cell surface SM degradation.
Highlights
The bioactive molecule sphingosine 1-phosphate (S1P) is abundantly stored in platelets and can be released extracellularly
Cer is deacylated by ceramidase (CDase) to generate sphingosine (Sph); because Sph is not produced by de novo synthesis, its generation is restricted to this pathway [5], referred to here as the “SM degradation pathway.”
In the present study in platelets, we found that the precursor Sph is supplied from at least two sources: incorporation of plasma Sph, which at least in part is generated in the plasma by secreted enzymes; and generation at the outer leaflet of the plasma membrane, triggered by cell surface SM degradation
Summary
The bioactive molecule sphingosine 1-phosphate (S1P) is abundantly stored in platelets and can be released extracellularly They have high sphingosine (Sph) kinase activity, platelets lack the de novo sphingolipid biosynthesis necessary to provide the substrates. S1P has attracted a great deal of attention as a key cell signaling molecule, functioning both as an intracellular second messenger and as a ligand for five G protein-coupled receptors, the endothelial differentiation gene receptors, named S1P1 to S1P5 [4]. S1Ps are present in plasma and serum [9] This extracellular S1P is thought to be generated through two pathways: phosphorylation of extracellular Sph by Sph kinase released from endothelial cells [10], and release of intracellular S1P from certain cell types [11, 12]. Just how the precursor Sph is generated in platelets remains unclear
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