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W2017560192 abstract "Nanomedicine options for colon cancer therapy have been limited by the lack of suitable carriers capable of delivering sufficient drug into tumors to cause lethal toxicity. To circumvent this limitation, we fabricated a camptothecin (CPT)-loaded poly(lactic-co-glycolic acid) nanoparticle (NP) with dual-surface functionalization—Pluronic F127 and chitosan—for inhibiting multi-drug resistant gene 1 (MDR1) expression and enhancing tumor uptake. The resultant spherical NPs-P/C had a desirable particle size (∼268 nm), slightly positive zeta-potential, and the ability to efficiently down-regulate the expression of MDR1. In vitro cytotoxicity tests revealed that the 24 and 48 h IC50 values of NPs-P/C1 were 2.03 and 0.67 μm, respectively, which were much lower than those for free CPT and other NPs. Interestingly, NPs-P/C1 showed the highest cellular uptake efficiency (approximately 85.5%) among the different drug formulations. Most importantly, treatment of colon tumor-bearing mice with various drug formulations confirmed that the introduction of Pluronic F127 and chitosan to the NP surface significantly enhanced the therapeutic efficacy of CPT, induced tumor cell apoptosis, and reduced systemic toxicity. Collectively, these findings suggest that our one-step-fabricated, dual-surface-functionalized NPs may hold promise as a readily scalable and effective drug carrier with clinical potential in colon cancer therapy." @default.
W2017560192 created "2016-06-24" @default.
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W2017560192 date "2015-04-01" @default.
W2017560192 modified "2023-10-16" @default.
W2017560192 title "Inhibition of MDR1 gene expression and enhancing cellular uptake for effective colon cancer treatment using dual-surface-functionalized nanoparticles" @default.
W2017560192 cites W1903105706 @default.
W2017560192 cites W1967628689 @default.
W2017560192 cites W1968906109 @default.
W2017560192 cites W1969795416 @default.
W2017560192 cites W1974817663 @default.
W2017560192 cites W1976581787 @default.
W2017560192 cites W1977800073 @default.
W2017560192 cites W1984186404 @default.
W2017560192 cites W1994243468 @default.
W2017560192 cites W1994720283 @default.
W2017560192 cites W1995415878 @default.
W2017560192 cites W1997963236 @default.
W2017560192 cites W2003474213 @default.
W2017560192 cites W2003495186 @default.
W2017560192 cites W2004750142 @default.
W2017560192 cites W2008513838 @default.
W2017560192 cites W2011671780 @default.
W2017560192 cites W2012380513 @default.
W2017560192 cites W2013270956 @default.
W2017560192 cites W2016054780 @default.
W2017560192 cites W2020798897 @default.
W2017560192 cites W2022605033 @default.
W2017560192 cites W2027876233 @default.
W2017560192 cites W2031104374 @default.
W2017560192 cites W2033346155 @default.
W2017560192 cites W2036459378 @default.
W2017560192 cites W2036551119 @default.
W2017560192 cites W2043829102 @default.
W2017560192 cites W2044584386 @default.
W2017560192 cites W2049298366 @default.
W2017560192 cites W2050404828 @default.
W2017560192 cites W2052745039 @default.
W2017560192 cites W2059201273 @default.
W2017560192 cites W2061106944 @default.
W2017560192 cites W2062398476 @default.
W2017560192 cites W2064093384 @default.
W2017560192 cites W2064731028 @default.
W2017560192 cites W2074030159 @default.
W2017560192 cites W2080202466 @default.
W2017560192 cites W2082419507 @default.
W2017560192 cites W2085439787 @default.
W2017560192 cites W2085852125 @default.
W2017560192 cites W2090450679 @default.
W2017560192 cites W2093046405 @default.
W2017560192 cites W2098090525 @default.
W2017560192 cites W2099166156 @default.
W2017560192 cites W2100809064 @default.
W2017560192 cites W2118864040 @default.
W2017560192 cites W2120060289 @default.
W2017560192 cites W2121781418 @default.
W2017560192 cites W2133295671 @default.
W2017560192 cites W2134324896 @default.
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W2017560192 cites W2144331651 @default.
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W2017560192 cites W2146161922 @default.
W2017560192 cites W2146580600 @default.
W2017560192 cites W2318547354 @default.
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W2017560192 doi "https://doi.org/10.1016/j.biomaterials.2015.01.014" @default.
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