Abstract
The bone marrow is a frequent location of primary relapse after conventional cytotoxic drug treatment of human B-cell precursor acute lymphoblastic leukemia (BCP-ALL). Because stromal cells have a major role in promoting chemotherapy resistance, they should be included to more realistically model in vitro drug treatment. Here we validated a novel application of the xCELLigence system as a continuous co-culture to assess long-term effects of drug treatment on BCP-ALL cells. We found that bone marrow OP9 stromal cells adhere to the electrodes but are progressively displaced by dividing patient-derived BCP-ALL cells, resulting in reduction of impedance over time. Death of BCP-ALL cells due to drug treatment results in re-adherence of the stromal cells to the electrodes, increasing impedance. Importantly, vincristine inhibited proliferation of sensitive BCP-ALL cells in a dose-dependent manner, correlating with increased impedance. This system was able to discriminate sensitivity of two relapsed Philadelphia chromosome (Ph) positive ALLs to four different targeted kinase inhibitors. Moreover, differences in sensitivity of two CRLF2-drivenBCP-ALL cell lines to ruxolitinib were also seen. These results show that impedance can be used as a novel approach to monitor drug treatment and sensitivity of primary BCP-ALL cells in the presence of protective microenvironmental cells.
Highlights
Normal B-cell lineage development occurs in bone marrow, where association with stromal cells regulates the early stages of progressive B-cell lineage maturation and selection [1,2,3]
We investigated the possibility of a novel approach to measure the effects of chemotherapy treatment on B-cell precursor acute lymphoblastic leukemia (BCP-ALL) cells in a co-culture set up using the xCELLigence system
The current study was taken to explore the possibility of applying the xCELLigence impedance-based system to monitor chemotherapy treatment on BCP-ALL cells while they are in co-culture with BM stromal cells
Summary
Normal B-cell lineage development occurs in bone marrow, where association with stromal cells regulates the early stages of progressive B-cell lineage maturation and selection [1,2,3]. Human B-cell precursor acute lymphoblastic leukemia (BCP-ALL) originates in bone marrow. This is a frequent location of primary relapse after conventional cytotoxic drug treatment. BCP-ALL cells are protected against chemotherapy by association with stromal cells. Such stromal cells act as a communication and instruction network, regulate local.
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