Abstract
Expression of ABC family transporter proteins that promote drug efflux from cancer cells is a widely observed mechanism of multi-drug resistance of cancer cells. Cell adaptation in long-term culture of HL60 leukemic cells in the presence of chemotherapy leads to induction and maintenance of the ABC transporters expression, preventing further accumulation of drugs. However, we found that decreased accumulation of drugs and fluorescent dyes also contributed by a reduced uptake by the resistant cells. Confocal time-lapse microscopy and flow cytometry revealed that fluid-phase endocytosis was diminished in drug-resistant cells compared to drug-sensitive cells. Drug uptake was increased by insulin co-treatment when cells were grown in methylcellulose and monitored under the microscope, but not when cultured in suspension. We propose that multi-drug resistance is not only solely achieved by enhanced efflux capacity but also by supressed intake of the drug, offering an alternative target to overcome drug resistance or potentiate chemotherapy.
Highlights
Endocytosis is used by all cells to take up solutes from their surroundings [1,2,3,4,5,6]
Our results suggest that a model in which expression of ABC transporters prevent drug accumulation in the resistant cell by improving efflux must be extended by considering the other side of the equation, the suppression of drug influx by active reduction of endocytosis
The use of this dye as a live/dead discriminant must consider that propidium iodide (PI) can enter live cells through fluid-phase endocytosis and has been used as a marker for this endocytic route [8, 9, 12, 17, 19, 24, 26, 35, 36]
Summary
Endocytosis is used by all cells to take up solutes from their surroundings [1,2,3,4,5,6]. In fluid-phase endocytosis, the uptake of the extra-cellular fluid is proportional to the concentration of molecules outside the cell [3, 16,17,18,19]. Some signaling pathways are controlled by differential endocytosis, which mediates recycling and ensues degradation of cell surface receptors [3, 18, 20, 21]. The regulation of endocytosis can control the extent of drug delivery to a cell and disruptions of this process may have consequences in disease development [22,23,24,25,26]
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