Pro‐inflammatory cytokines favor the emergence of ETV6‐RUNX1‐positive pre‐leukemic cells in a model of mesenchymal niche

ETV6-RUNX1 (E/R) fusion gene, arising in utero from translocation t(12;21)(p13:q22), is the most frequent alteration in childhood acute lymphoblastic leukemia (ALL). However, E/R is insufficient to cause overt leukemia since it generates a clinically silent pre-leukemic clone which persists in the bone marrow but fails to out-compete normal progenitors. Conversely, pre-leukemic cells show increased susceptibility to transformation following additional genetic insults. Infections/inflammation are the most accredited triggers for mutations accumulation and leukemic transformation in E/R(+) pre-leukemic cells. However, precisely how E/R and inflammation interact in promoting leukemia is still poorly understood. Here we demonstrate that IL6/TNFalpha/ILbeta pro-inflammatory cytokines cooperate with BM-MSC in promoting the emergence of E/R(+) Ba/F3 over their normal counterparts by differentially affecting their proliferation and survival. Moreover, IL6/TNFalpha/ILbeta-stimulated BM-MSC strongly attract E/R(+) Ba/F3 in a CXCR2-dependent manner. Interestingly, E/R-expressing human CD34(+) IL7R(+) progenitors, a putative population for leukemia initiation during development, were preserved in the presence of BM-MSC and IL6/TNFalpha/ILbeta compared to their normal counterparts. Finally, the extent of DNA damage increases within the inflamed niche in both control and E/R-expressing Ba/F3, potentially leading to transformation in the apoptosis-resistant pre-leukemic clone. Overall, our data provide new mechanistic insights into childhood ALL pathogenesis.