3147 – SPHINGOSINE-1-PHOSPHATE RECEPTOR 3 SIGNALING DEPLETES LEUKEMIA STEM CELLS BY INDUCING DIFFERENTIATION

Abstract

Inflammation underlies many chronic diseases of aging, involves dysregulated myeloid cells, and has emerged as a critical process regulating both normal hematopoietic stem cell (HSC) function and myeloid malignancy. However, few of the signaling pathways that underlie these proposed linkages are known. Here, we show that bioactive lipid signaling through sphingosine 1-phosphate receptor 3 (S1PR3) regulates human myeloid lineage determination via inflammatory programs and is dysregulated in acute myeloid leukemia (AML). S1PR3 is myeloid-restricted and not expressed by quiescent HSC, but upon overexpression (OE) promoted myelopoiesis and activated inflammatory signatures. S1PR3 is deficient in primitive AML, but enriched in more mature cases. Importantly, in functionally-validated primary leukemia stem cells (LSC) sorted for high S1PR3 expression or when differentiation was induced through S1PR3OE exhibited reduced xenograft repopulating ability. Treatment of recipient mice engrafted with the S1P prodrug FTY720 reduced patient AML LSC frequency. Thus, S1PR3 marks a subset of less primitive AML cells with a distinct inflammatory signature, and activation of S1PR3 may represent a novel therapeutic approach to disrupt LSC function through induction of differentiation.