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Human bone marrow stromal cell contact and soluble factors have different effects on the survival and proliferation of paediatric B-lineage acute lymphoblastic leukaemic blasts
journal contributionposted on 1994-05-01, 00:00 authored by David Ashley, S J Bol, G Kannourakis
Recent studies have confirmed that in vitro viability and proliferation of precursor B-cell leukaemia (ALL) cells are linked to the presence of bone marrow derived stromal cells. To investigate whether this effect is mediated by direct contact or through the action of soluble factors, using a method we have recently described, the growth parameters of ALL bone marrow blast cells from eight newly diagnosed patients were determined with the lipophilic fluorescent probe PKH 26 GL. The viability of ALL cells and the rate of cell division in cultures containing either medium alone; stromal cell conditioned medium; stromal cell layers allowing direct contact, or in 0.4 microns microporous membrane cultures suspended above stromal cell layers were examined. In all eight samples an improved maintenance of ALL cells in a viable state in cultures containing bone marrow stromal cells was observed. The survival of leukaemic cells was equivalent in 0.4 microns microporous membrane cultures suspended above stromal cell layers and in cultures of leukaemic cells in direct contact with stromal cell layers. It was thus demonstrated that this effect was mediated by the action of soluble factor(s) present in these cultures. However, the improved maintenance of ALL cells in a viable state was observed in only one of the eight cases when ALL cells were cultured in stromal cell conditioned medium alone. The highest rate of cell division of leukaemic cells was observed in ALL cells in direct contact with bone marrow stromal cells. The activities of stromal cell derived soluble factors could not be reproduced by recombinant forms of likely candidate factors including IL-1 beta, IL-4, IL-6, IL-7, SCF, TNF alpha, TGF beta, LIF, NGF or a mixture of these factors when examined in cultures of the same patient samples. This study implicates the existence of a novel bone marrow derived factor(s) that improves survival of ALL cells in vitro.