Introduction CML is a clonal disorder of pluripotent hematopoietic stem cells characterized by the Philadelphia (Ph) chromosome, which results from the reciprocal translocation between the long arms of chromosomes 9 and 22. 1-4 This hybrid B-cell receptor (BCR)-ABL1 gene encodes for a fusion protein Bcr-Abl1 with a constitutive tyrosine kinase activity. 3,4 Despite high rates of clinical responses in early chronic phase CML (CML-CP) to the Bcr-Abl1 kinase inhibitor imatinib, 5-8 development of resistance is a major problem in late CML-CP and in the treatment of blast crisis CML (CML-BC). 9-12 Although Bcr-Abl1-independent mechanisms also exist, 13-15 resistance in CML-CP is usually associated with the expression of mutant Bcr-Abl1 proteins, including T315I and Y253F/H mutations against which the second generation ABL tyrosine kinase inhibitors (TKI) such as nilotinib and/or dasatinib show limited effect. 15-17 Nonetheless , BCR-ABL1 mutations may not account for all cases of drug resistance in CML (CP and BC); indeed, alternative Bcr-Abl1-dependent mechanisms including alterations of sphingolipid metabolism and signaling, 18 might account for TKI resistance. Sphingolipids, ceramide and sphingosine 1-phosphate (S1P) included, are a family of membrane lipids with important roles in the regulation of the fluidity and subdomain structure of membranes. 19-21 Ceramide can be hydrolyzed by ceramidases to release sphingosine, which is phosphorylated by sphingosine kinases-1 or-2 (SK-1 or SK-2) to generate S1P. 20 Ceramide plays proapoptotic roles 21 whereas S1P mediates proliferation and/or resistance to apoptosis 22,23 generally via G-protein-coupled S1P1-5 receptor signaling. 24 However, receptor-independent intracellular functions of S1P were also reported. 25 Recently, alteration of the balance between the proapoptotic ceramide and antiapoptotic S1P via up-regulation of SK-1 was shown to mediate imatinib resistance in K562 CML-BC patient-derived cells by an unknown mechanism. 18 Here, we report the identification of a novel mechanism by which SK-1/S1P mediates imatinib resistance by regulation of the PP2A-dependent and SHP-1-mediated Bcr-Abl1 dephosphoryla-tion and stability selectively via receptor 2 (S1P2) signaling in CML (CP and BC). In addition, our data suggest that targeting the SK-1/S1P2 signaling axis provides a novel strategy to modulate wild-type (wt) or mutant (T315I or Y253H) Bcr-Abl1 stability by restoring PP2A function, and attenuate drug resistance both in cell culture and in mice bearing 32D/T315I-Bcr-Abl1 allografts. Human CML cell lines K562, LAMA4, and their imatinib-resistant derivatives K562/IMA-0.1,-1,-3, or LAMA4/IMA, were maintained as described. 18 The Bcr-Abl-expressing 32Dcl3 cells, 32D-p210 Bcr-Abl (wt), 32D-p210 Bcr-Abl (Y253H) and (T315I) were maintained in RPMI containing 15% FBS, 2mM L-glutamine, and penicillin and streptomycin (P/S; 100 ng/mL each). MEFs (wt and SK-1 /) were maintained in DMEM with 10% FBS and P/S. Human CD34 primary cells from CML patients and normal donor were obt...
