Mitochondrial dsRNA from B-Precursor Acute Lymphoblastic Leukemia Cells Induce Formation of Cancer Associated Fibroblast in the Bone Marrow Leading to Formation of a Chemoprotective Bone Marrow Niche

Precursor B-cell Acute Lymphoblastic Leukemia (B-ALL) is typically a highly chemosensitive malignancy with the majority of children being cured by chemotherapy alone. Adult ALL is often chemosensitive at initial treatment, but long term disease free survival is less common. It is widely accepted that outcome in ALL closely relates to underlying genetic lesion (Moorman, Hematologica 2016) but no specific mechanisms by which ALL genetics influence outcome have been identified. We have previously demonstrated that an ‘activated mesenchymal stromal cell (MSC) niche’ develops in response to reactive oxygen species (ROS) -inducing chemotherapy in which mitochondria are actively transferred along tunnelling nanotubes to ‘rescue’ B-ALL cells from chemotherapy (Burt, et al Blood 2019). According to recent evidence that chemotherapy resistant ALL sub-clones may exist at diagnosis (Dobson et al Cancer Discovery 2020), we hypothesised that B-ALL cells may themselves directly activate bone marrow stromal cells to generate cancer associated fibroblasts (CAF) from MSC. To test this hypothesis, we first used our previously described in vitro niche model wherein either the HS27a MSC cell line or healthy donor (HD) MSCs are co-cultured with either B-ALL cell lines or primary patient B-ALL cells. Three of five B-ALL cell lines and 3 of 4 primary B-ALL samples tested, induced activation of the MSCs, as characterised by cytomorphological changes identified by confocal microscopy, up-regulation of CAF-relevant gene expression and increased IL6, IL8 and CCL2 protein secretion. The ability of the B-ALL cell lines to induce CAF correlated directly with the intrinsic ROS levels of the cell as determined by CellROX assay. In vivo, the CAF-inducing ALL cell lines also activated murine MSCs when established as xenografts in NOD-SCID gamma (NSG) mice. Immunohistochemistry of NSG murine femora revealed a very significant expansion in nestin+ cells after exposure to CAF-induing ALL cells compared to non-CAF-inducing controls. We established that the ALL cells activated MSC without contact, both from exposure of MSC to ALL cells in transwell and from exposure to B-ALL cell conditioned media (CM). RNA sequencing of HS27a stromal cells exposed to CAF-inducing B-ALL cell CM compared with non-CAF inducing controls unexpectedly showed that the most highly upregulated pathways were those involved in RNA sensing. Using a smaller gene panel selected from among the RNA-sensing pathway genes, we co