The immunomodulatory drug FTY720 is phosphorylated in vivo, and the resulting FTY720 phosphate as a ligand for sphingosine-1-phosphate receptors is responsible for the unique biological effects of the compound. So far, phosphorylation of FTY720 by murine sphingosine kinase (SPHK) 1a had been documented. We found that, while FTY720 is also phosphorylated by human SPHK1, the human type 2 isoform phosphorylates the drug 30-fold more efficiently, because of a lower K m of FTY720 for SPHK2. Similarly, murine SPHK2 was more efficient than SPHK1a. Among splice variants of the human SPHKs, an N-terminally extended SPHK2 isoform was even more active than SPHK2 itself. Further SPHK superfamily members, namely ceramide kinase and a "SPHK-like" protein, failed to phosphorylate sphingosine and FTY720. Thus, only SPHK1 and 2 appear to be capable of phosphorylating FTY720. Using selective assay conditions, SPHK1 and 2 activities in murine tissues were measured. While activity of SPHK2 toward sphingosine was generally lower than of SPHK1, FTY720 phosphorylation was higher under conditions favoring SPHK2. In human endothelial cells, while activity of SPHK1 toward sphingosine was 2-fold higher than of SPHK2, FTY720 phosphorylation was 7-fold faster under SPHK2 assay conditions. Finally, FTY720 was poorly phosphorylated in human blood as compared with rodent blood, in line with the low activity of SPHK1 and in particular of SPHK2 in human blood. To conclude, both SPHK1 and 2 are capable of phosphorylating FTY720, but SPHK2 is quantitatively more important than SPHK1.FTY720 is an immunomodulatory drug, which is highly efficacious in models of transplantation and of autoimmune diseases (1). It was recently found to be effective in kidney transplantation in humans (2). FTY720 elicits a lymphopenia resulting from the reversible redistribution of lymphocytes from the circulation to secondary lymphoid organs, without leading to general immunosuppression (3, 4). Conversion of FTY720 to its monophosphate appears to be essential for the effects of the drug on lymphocyte homing, since FTY720 phosphate acts as an agonist at four of the five G-protein-coupled receptors for sphingosine-1-phosphate (S1P) 1 (5, 6); it is assumed that at least one S1P receptor is critical to the lymphopenic response induced by FTY720 treatment (2). More recently, FTY720 was found to stimulate multidrug transporterdependent T-cell chemotaxis to lymph nodes (7); in this instance, FTY720 phosphate as the active metabolite is hypothesized to be responsible for stimulation of efflux activity of the lipid transporter Abcb1. FTY720 has been reported to be phosphorylated ex vivo by rodent lymphoid tissues (5) and whole blood of several species (6), and is rapidly phosphorylated in vivo (5, 6). After oral application of FTY720 to rats, the blood levels of the monophosphate exceeded those of the parent compound 2-4 fold (5). FTY720 was shown to be a substrate for recombinant murine sphingosine kinase 1a (muSPHK1a) (5). Studies with chiral analogs of FTY720 (namely the R-an...
