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目的研究人白血病细胞多药耐药(MDR)的发生机理及逆转方法。方法建立了K562/HHT和K562/VCR两株MDR细胞系,经免疫组化染色观察了P-糖蛋白(Pgp)和MDR相关蛋白(MRP)的表达;采用四氮甲基唑蓝(MTT)药敏试验及测定细胞内柔红霉素(DNR)含量的方法研究了异搏定和红霉素对MDR的逆转作用。结果两株MDR细胞系均有Pgp高度表达,但无MRP表达。5μg/ml异搏定和50μg/ml红霉素都能部分逆转两株MDR细胞系的耐药性。2.5~10μg/ml异搏定不仅能增加MDR细胞对DNR的摄取量,也能减少DNR的外排,且上述作用随异搏定浓度的增加而增强;50~200μg/ml红霉素则对MDR细胞摄取和外排DNR无明显影响。结论Pgp可能与白血病细胞产生MDR有关;异搏定和红霉素对白血病细胞MDR有逆转作用。
Objective To study the mechanism and reversal of multidrug resistance (MDR) in human leukemia cells. Methods Two MDR cell lines, K562 / HHT and K562 / VCR, were established. Expressions of Pgp and MDR-related proteins (MRP) were observed by immunohistochemical staining. Drug susceptibility testing and determination of intracellular daunorubicin (DNR) content of verapamil and erythromycin MDR reversal effect. Results Both MDR cell lines showed high expression of Pgp but no MRP expression. Both 5μg / ml verapamil and 50μg / ml erythromycin partially reversed the drug resistance of the two MDR cell lines. 2.5 ~ 10μg / ml verapamil can not only increase the uptake of DNR in MDR cells, but also reduce the efflux of DNR, and the above effect increases with the increase of verapamil concentration; 50 ~ 200μg / ml erythromycin MDR cell uptake and efflux DNR no significant effect. Conclusion Pgp may be related to the production of MDR in leukemia cells. Verapamil and erythromycin may reverse MDR in leukemia cells.