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Merck
  • Sequential therapy with redox-responsive glucolipid nanocarrier separately delivering siRNA and doxorubicin to overcome multidrug resistance.

Sequential therapy with redox-responsive glucolipid nanocarrier separately delivering siRNA and doxorubicin to overcome multidrug resistance.

International journal of pharmaceutics (2017-10-21)
Tingting Meng, Binbin Lu, Shihong Shao, Ming Yuan, Xuan Liu, Hong Yuan, Xuan Huang, Fuqiang Hu
摘要

P-glycoprotein (P-gp) is a major efflux transporter overexpressed on multidrug resistant tumor cells and responsible for pumping drugs out. If anti-tumor drugs are given when P-gp level is low, satisfactory treatment efficiency may be achieved. Thus, a P-gp down-regulating siRNA (siMDR1) and doxorubicin (DOX) were applied to eliminate multidrug resistant breast cancer cells (MCF-7/ADR). A redox-responsive glucolipid conjugate (CSO-ss-SA) was used to condense siRNA (CSO-ss-SA/siRNA) and encapsulate DOX (CSO-ss-SA/DOX) separately. They responded to the high reducing environment of tumor cells and fast released the payload. CSO-ss-SA/siMDR1 silenced MDR1 gene and resulted in a transient decrease of P-gp. Sequentially, DOX formulation (CSO-ss-SA/DOX or DOX·HCl) was delivered when P-gp was reduced to the lowest level. After pretreatment by CSO-ss-SA/siMDR1, cytotoxicity of CSO-ss-SA/DOX and DOX·HCl against MCF-7/ADR cells were 6.4 or 3.4-fold respectively of that treated by DOX·HCl alone, which exhibited increased cytotoxin sensitivity of drug resistant cells and maximized therapeutic outcomes. These results revealed that the sequential treatment strategy of CSO-ss-SA/siRNA and CSO-ss-SA/DOX hold potential in achieving an optimal overcoming multidrug resistance efficiency.

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Sigma-Aldrich
3,3′-二硫代二丙酸, 99%