School of Pharmacy, Faculty of Medical and Health Sciences, The University of Auckland, Auckland, New Zealand.
Department of Pharmacology, Faculty of Medical and Health Sciences, The University of Auckland, Auckland, New Zealand.
Pharm Res. 2021 Jul;38(7):1209-1219. doi: 10.1007/s11095-021-03072-2. Epub 2021 Jun 29.
PEGylated pH-sensitive liposomes (PSL) dual-loaded with gemcitabine and curcumin were investigated for the potential application in gemcitabine-resistant pancreatic ductal adenocarcinoma (PDAC) treatment. Curcumin was employed as an inhibitor of the efflux transporter, multidrug resistance protein 5 (MRP5) in PDAC cells.
Liposomes were prepared with gemcitabine in the core and curcumin in the bilayers. The effects of curcumin on pH-sensitivity and 'endosome escape' of PSL with different PEGylation were investigated using a calcein self-quench assay. The effects of curcumin on intracellular gemcitabine concentrations, and cytotoxicity to a MIA PaCa-2 PDAC cell line was evaluated. The pharmacokinetics were investigated in rats following intravenous injection.
The addition of curcumin to the PSL bilayers (0.2-1 mol%)slightly decreased the pH-sensitivity of PSL, but to a less extent than PEGylation (0-5 mol%). Co-treatment with curcumin increased gemcitabine cellular accumulation in a concentration-dependent manner, and resulted in synergistic cytotoxicity towards MIA PaCa-2cells.Both these effects were augmented by the use of PSL, particularly when the two drugs were co-loaded in PSL. In rats, the dual-drug loaded PSL produced significantly reduced (p < 0.05) plasma clearance (CL) and volume of distribution (V) for both drugs, alongside 3 to 4-fold increases in the area-under-the-concentration-time curves compared to the free drugs. Additionally, curcumin slightly increase the plasma concentrations of gemcitabine possibly also via the MRP5 inhibition effect.
Co-delivery of curcumin with gemcitabine using PSL not only increased the intracellular gemcitabine concentration thus cytotoxicity to MIA PaCa-2 cells but also significantly improved the pharmacokinetic profiles for both drugs. Graphical Abstract.
聚乙二醇化 pH 敏感脂质体(PSL)双重负载吉西他滨和姜黄素,用于治疗吉西他滨耐药胰腺导管腺癌(PDAC)。姜黄素被用作 PDAC 细胞中流出转运蛋白多药耐药蛋白 5(MRP5)的抑制剂。
将吉西他滨包封在核内,姜黄素包封在双层脂质体中制备脂质体。采用钙黄绿素自猝灭法研究不同聚乙二醇化程度的 PSL 中姜黄素对 pH 敏感性和“内涵体逃逸”的影响。研究了姜黄素对 MIA PaCa-2 PDAC 细胞系细胞内吉西他滨浓度和细胞毒性的影响。在大鼠体内静脉注射后研究了药代动力学。
姜黄素添加到 PSL 双层(0.2-1mol%)中会略微降低 PSL 的 pH 敏感性,但程度低于聚乙二醇化(0-5mol%)。姜黄素的协同处理以浓度依赖的方式增加了吉西他滨的细胞积累,并导致对 MIA PaCa-2 细胞的协同细胞毒性。这两种作用都通过 PSL 增强,特别是当两种药物共同负载在 PSL 中时。在大鼠中,与游离药物相比,双重药物负载的 PSL 显著降低(p<0.05)了两种药物的血浆清除率(CL)和分布容积(V),同时使药物浓度-时间曲线下面积增加了 3 至 4 倍。此外,姜黄素可能通过 MRP5 抑制作用略微增加吉西他滨的血浆浓度。
使用 PSL 共递送吉西他滨和姜黄素不仅增加了细胞内吉西他滨浓度,从而提高了对 MIA PaCa-2 细胞的细胞毒性,而且还显著改善了两种药物的药代动力学特征。
