Publication Date:
2018-11-29
Description:
Introduction Residence and interaction with a specialized bone marrow microenvironment is important for normal hematopoietic stem cells and for initiation and progression of myeloid malignancies, but the role of the microenvironment in propagation and therapeutic response of acute lymphoblastic leukemia (ALL) is not well known. Prior work has identified the efficacy of inhibiting FAK signaling, which is deregulated by IKZF1 alterations resulting in induction of THY1-Integrin alpha 5 adhesion in Ph-positive (Ph+) ALL. Here, we hypothesized that this mechanism may be more broadly important in ALL. We applied a systematic integrated genomic/imaging/functional approach to define the nature of interaction and identify changes in leukemic cells upon interaction that may be targetable. Materials and methods Time-lapse confocal imaging was performed to examine how leukemia cells migrate and adhere to mesenchymal stem cells (MSCs). NALM6 (DUX4/ERG), MHH-CALL2 (hypodiploid), 697 (TCF3-PBX1), Reh (ETV6-RUNX1) and SUP-B15 (Ph+) cell lines were cultured with immortalized human bone marrow MSCs transduced with telomerase reverse transcriptase (hTERT) (Mihara, Br J Haematol. 2003;120:846). For RNA-sequencing, non-adherent cell line cells were collected after two days of coculture with hTERT while adherent cells were trypsinized and collected. Both samples were sorted for CD19 positive population. Fresh primary ALL samples were cultured on bone marrow MSCs derived from patients with no hematological disease and collected with the same procedure for RT-PCR. Multicolor immunofluorescence imaging was utilized to observe expression of multiple molecules involved in adherence. Results Time-lapse imaging showed that leukemia cells have a dynamic interaction with MSC monolayers, with temporary adherence, accompanied by dynamic change in their shape. NALM6 cells adherent to MSCs reduced cell cycling, with an increase in the ratio of G0/G1 cells (26.7% to 48.0%) and decrease in S phase (60.7 to 41.8%). Analysis of gene expression showed 138 upregulated genes (log2FC 〉2 and FDR
Print ISSN:
0006-4971
Electronic ISSN:
1528-0020
Topics:
Biology
,
Medicine
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