Asxl1loss cooperates with oncogenic Nras in mice to reprogram immune microenvironment and drive leukemic transformation.
Xiaona YouFabao LiuMoritz BinderAlexis VedderTerra L LashoZhi WenXin GaoEvan FlietnerAdhithi RajagopalanYun ZhouChristy M FinkeAbhishek A MangaonkarRuiqi LiaoGuangyao KongErik A RanheimNathalie M DroinAnthony M HunterSergey I NikolaevMaria E BalasisOmar Abdel-WahabRoss L LevineBritta WillKalyan Vara Ganesh NadimintiDavid T YangKlaus GeisslerEric SolaryWei XuEric PadronMirinal S PatnaikJing ZhangPublished in: Blood (2021)
Mutations in chromatin regulator ASXL1 are frequently identified in myeloid malignancies, in particular ~40% in chronic myelomonocytic leukemia (CMML). ASXL1 mutations associate with poor prognosis in CMML and significantly co-occur with NRAS mutations. Here, we show that concurrent ASXL1 and NRAS mutations defined a population of CMML patients with shorter leukemia-free survival than those with ASXL1 mutation only. Corroborating this human data, Asxl1-/- accelerated CMML progression and promoted CMML transformation to acute myeloid leukemia (AML) in NrasG12D/+ mice. NrasG12D/+; Asxl1-/- (NA) leukemia cells displayed hyperactivation of MEK/ERK signaling, increased global level of H3K27ac, and Flt3 upregulation. Moreover, we find that NA-AML cells overexpressed all the major inhibitory immune checkpoint ligands, PD-L1/L2, CD155, and CD80/86. Among them, overexpression of PD-L1 and CD86 correlated with upregulation of AP-1 transcription factors (TFs) in NA-AML cells. An AP-1 inhibitor or shRNAs against AP-1 TF Jun decreased PD-L1 and CD86 expression in NA-AML cells. Once NA-AML cells were transplanted into syngeneic recipients, NA-derived T cells were not detectable. Host-derived wildtype T cells overexpressed PD-1 and TIGIT receptors, leading to a predominant exhausted T cell phenotype. Combined inhibition of MEK and BET led to downregulation of Flt3 and AP-1 expression, partial restoration of the immune microenvironment, enhancement of CD8+ T cell cytotoxicity, and prolonged survival in NA-AML mice. Our study suggests that combined targeted therapy and immunotherapy may be beneficial for treating secondary AML with concurrent ASXL1 and NRAS mutations.
Keyphrases
- acute myeloid leukemia
- poor prognosis
- induced apoptosis
- transcription factor
- allogeneic hematopoietic stem cell transplantation
- cell cycle arrest
- signaling pathway
- stem cells
- free survival
- gene expression
- type diabetes
- immune response
- endoplasmic reticulum stress
- high fat diet induced
- radiation therapy
- endothelial cells
- cell death
- dna damage
- nk cells
- wild type
- bone marrow
- adipose tissue
- electronic health record