BackgroundCeramides are naturally occurring cellular sphingolipids which are increased following various effective cancer therapies. Bioavailable forms of ceramide are under development as therapeutic tools (Anticancer Agents Med Chem. 2011 Nov;11(9):911-9). Short side chain (C6) ceramide has, in pegylated nanoliposomal (NL) formulations, shown excellent cellular uptake and significant anti-tumor activity in a variety of tumor types and models. Cellular autophagy is an active microsomal process implicated in ceramide metabolism and potentially in the detoxification of C6-ceramide. We have previously shown synergistic combination therapy with Lip-C6-ceramide and vinblastine and its association with autophagy dysfunction in hepatocarcinoma and colorectal cancer models (Cancer Lett. 2013 Sep 1;337(2):254-65.). Methods and findingsWe explored the therapeutic activity of nano-liposomally delivered C6-ceramide (Lip-C6) in cell lines and primary human acute myelogenous leukemia (hAML). Lip-C6 cytotoxicity was tested in multiple human and murine AML lines (in short term viability assays) and in multiple cryopreserved primary human AML cases (in clonogenic assays - colony formation in methylcellulose). Lip-C6 demonstrated anti-AML activity in these cells with an EC50 of 2-23uM Lip-C6. In order to enhance this efficacy the interplay between ceramide induced apoptosis and autophagy was explored. The AML line KG1 was found to be relatively resistant to Lip-C6 (EC50 23uM). KGI showed supra-additive sensitivity to the combination of Lip-C6 with either vinblastine (VBL) or vincristine, both microtubule binding agents with the ability to reduce autophageic flux. KG1 sub-clones with knockdown of ATG5 demonstrated increased sensitivity to Lip-C6 relative to control or scrambled knockdown transfectants, consistent with the hypothesis that autophagy “rescues” this line from ceramide cytotoxicity. To further confirm these findings we examined the interaction of Lip-C6 (20uM) with VBL (5uM) or chloroquine (25uM) in a series of 13 fresh, patient derived AML cases (Figure: A-F). After 48 hours of co-culture, cells were examined for apoptosis of whole leukemic(E) and putative leukemia “stem cell” (LSC - F) fractions by flow cytometry. We also studied the in-vivo activity of Ghost (control) NLs, Lip-C6, VBL-NLs and combinatorial Lip-C6+VBL-NLs in NSG xenografts bearing a single poor prognosis (inversion 3) hAML (data are shown in the figure G.) [Display omitted] ConclusionsWe conclude that VBL and chloroquine both yield significant enhancement of Lip-C6 ceramide anti-hAML cytotoxicity. Available evidence suggests that this effect is mediated by inhibition of autophagy in these ceramide stressed cells. These data suggest that the combination of Lip-6 with autophagy inhibitors delivered simultaneously or in combinatorial formulations may prove clinically useful for these disorders. Disclosures:Kester:Keystone Nano Inc.: Membership on an entity's Board of Directors or advisory committees, Penn state research foundation has licensed ceramide nanoliposome technology to keystone nano Inc. For commercialization, MK is co-founder and CMO of Keystone Nano., Penn state research foundation has licensed ceramide nanoliposome technology to keystone nano Inc. For commercialization, MK is co-founder and CMO of Keystone Nano. Patents & Royalties.