Absence Of Nkg2d Ligands Defines Human Acute Myeloid Leukaemia Stem Cells And Mediates Their Immune Evasion

Abstract Patients with acute myeloid leukaemia (AML) often achieve remission but subsequently die of relapse driven by chemotherapy resistant leukemic stem cells (LSCs). To initiate and maintain cancer, LSCs must also escape immunosurveillance. However, in vivo studies on human LSCs largely disregard lymphocyte mediated anti-tumor immunity due to the use of immunocompromised mice. Here we investigate the immunosurveillance mediated by NKG2D, a danger detector expressed by cytotoxic lymphocytes such as natural killer (NK) cells that recognizes stress-induced ligands (NKG2DL) of the MIC and ULBP protein families on AML cells. Staining of n=175 de novo AML with antibodies against MICA, MICB and ULB2/5/6 or an NKG2D-Fc chimeric protein recognizing pan-NKG2DL expression revealed NKG2DL to heterogeneously express among leukemic cells of the same patient (Fig. 1a). As expected, NKG2DLpos AML cells were efficiently cleared by natural killer (NK) cells, while NKG2DLneg leukemic cells escaped NK cell lysis. Interestingly, these NKG2DLneg AML cells also showed immature morphology, enhanced in vitro clonogenicity (39±47 colonies vs. 1±4, p Mechanistically, expression of poly-ADP-ribose polymerase 1 (PARP1) was identified as enriched in NKG2DLneg compared to NKG2DLpos leukemic subpopulations, and PARP1 inhibition (PARPi) using either siRNAs or pharmacological inhibitors such as AG-14361, veliparib, talazoparib or olaparib, increased NKG2DL mRNA transcripts between 6 and >50 fold. PARP1 binding sites were identified by in silico analysis in NKG2DL promoters and binding was confirmed by chromatin immunoprecipitation in the promoters of MICA and MICB. Importantly, treatment with PARPi induced NKG2DL surface expression on LSCs in vitro and in vivo and co-treatment with PARPi and NK cells efficiently suppressed leukemogenesis in patient derived xenograft (PDX) models (Fig. 1c). These data suggest that PARP1 inhibition sensitizes LSCs to NK cell mediated elimination. Finally, NKG2DL surface expression was found to inversely correlate with favorable molecular AML characteristics (favorable ELN risk group vs. other: p=0.034; inv(16) versus other: p=0.023), complete remission rates after induction chemotherapy (all patients: p=0.002, patients In summary, our data link the concept of LSCs to immune escape in human AML and propose the absence of immunostimulatory NKG2DL as a novel method to identify LSCs across genetic AML subtypes (including CD34 negative AMLs). This LSC specific mechanism of immune evasion could be overcome by treatment with PARP1 inhibitors, which in conjunction with functional NK cells holds promise to eradicate LSCs and promote immune-mediated cure of AML. Fig. 1: Human AML contain NKG2DLpos as well as NKG2DLneg subpopulations but only latter display leukemia initiation capacity (a: left, analysis of n=175 AML cases using NKG2D-Fc staining, right: exemplary flow cytometry plots; b: leukemic infiltration and survival in mice transplanted with NKG2DLneg or NKG2DLpos AML cells sorted from the same AML cases). PARP1 inhibition with AG-14361 up-regulates NKG2DL on CD34+ LSCs, and in vivo co-treatment with AG-14361 and polyclonal allogeneic NK cells suppresses leukemogenesis in PDX models (c). Disclosures Salih: Several patent applications: Patents & Royalties: e.g. EP3064507A1.