Abstract 306: Cationic cholesterol liposomes for combination therapy to treat drug-resistant ovarian cancer

S. Gardner, K. L. Alatise, E. Miller, E. Grant, Angela A Alexander-Bryant
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引用次数: 1

Abstract

Introduction: Ovarian cancer is the fifth leading cause of cancer mortality in women, with nearly 75% of women who respond to initial platinum-based chemotherapy experiencing relapse due to drug resistance [1,2]. Liposomes are a promising solution to overcoming drug resistance due to their biocompatibility and capacity to encapsulate hydrophilic and hydrophobic drugs as well as complex small interfering RNA (siRNA), which have the potential to downregulate the expression of genes related to drug resistance [3]. We aim to synthesize and characterize a cationic liposomal system to deliver siRNA and paclitaxel (PTX) to ovarian cancer cells. Methods: Cholesterol (CHOL) liposomes were synthesized by the thin-film hydration method. Dynamic light scattering (DLS) was used to determine the size, polydispersity index (PDI), and zeta potential of the liposomes. Uptake of liposomes into OVCAR3 and OVCAR3-T40, a wild-type and a paclitaxel-resistant human adenocarcinoma cell line, was examined using fluorescence microscopy. The cytotoxicity of unloaded CHOL liposomes was evaluated through MTS assay on OVCAR3 and OVCAR3-T40 cells. Results: PTX- and siRNA-loaded CHOL liposomes had an average diameter of 114.9 ± 10.35 nm and a zeta potential of 27.6 ± 1.79 mV. Blank CHOL liposomes had an average diameter of 123.0 ± 2.49 nm and zeta potential of 32.3 ± 2.16 mV. All formulations of liposomes were cationic and formed monodisperse nanoparticles. The encapsulation efficiency of siRNA and PTX was 99.8% and 80.4% respectively. Coumarin 6, a hydrophobic model drug, was loaded into liposomes to verify cellular uptake through fluorescent imaging. Results demonstrated that the liposomal system was efficiently delivered intracellularly. Blank liposomes were used to determine the toxicity of the delivery system. The unloaded liposomes were not cytotoxic to both the wild-type and drug-resistant cell lines at concentrations up to 75 µg/mL, and therefore, cytotoxicity of drug-loaded liposomes can be attributed to paclitaxel, siRNA, or combination treatment. Conclusions: Liposomes were successfully formed with a monodisperse size, exhibited effective drug and siRNA loading, and were internalized into OVCAR3 and OVCAR3-T40 cells. Future work includes investigating the efficacy of the liposomal system in mediating gene silencing. Acknowledgements: This work was supported in part by the National Science Foundation EPSCoR Program under NSF Award # OIA-1655740 and Clemson Creative Inquiry. References: [1] Torre, L. A., CA Cancer J Clin. 2018;68(4):284-296, [2], Norouzi-Barough L., J Cell Physiol.2018;233(6):4546-4562, [3] Farra R., Pharmaceutics. 2019;11(10):547. Citation Format: Samantha Gardner, Kharimat L. Alatise, Emily Miller, Emily Grant, Angela Alexander-Bryant. Cationic cholesterol liposomes for combination therapy to treat drug-resistant ovarian cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 306.
摘要306:阳离子胆固醇脂质体联合治疗耐药卵巢癌
引言:卵巢癌是女性癌症死亡的第五大原因,近75%对初始铂类化疗有反应的女性因耐药而复发[1,2]。脂质体具有生物相容性,能够包封亲疏水药物和复杂的小干扰RNA (siRNA),具有下调耐药相关基因表达的潜力,是克服耐药的一种很有前景的解决方案[3]。我们的目标是合成和表征一个阳离子脂质体系统递送siRNA和紫杉醇(PTX)到卵巢癌细胞。方法:采用薄膜水合法制备胆固醇(CHOL)脂质体。采用动态光散射法(DLS)测定脂质体的大小、多分散性指数(PDI)和zeta电位。利用荧光显微镜观察脂质体对野生型和紫杉醇耐药人腺癌细胞系OVCAR3和OVCAR3- t40的摄取情况。通过MTS法评价空载CHOL脂质体对OVCAR3和OVCAR3- t40细胞的细胞毒性。结果:PTX和sirna负载的CHOL脂质体平均直径为114.9±10.35 nm, zeta电位为27.6±1.79 mV。空白CHOL脂质体的平均直径为123.0±2.49 nm, zeta电位为32.3±2.16 mV。所有脂质体的配方都是阳离子的,形成单分散的纳米颗粒。siRNA和PTX的包封率分别为99.8%和80.4%。香豆素6是一种疏水模型药物,被装载到脂质体中,通过荧光成像验证细胞摄取。结果表明,脂质体系统能有效地在细胞内传递。空白脂质体用于测定给药系统的毒性。当浓度高达75µg/mL时,未载脂质体对野生型和耐药细胞系均无细胞毒性,因此,载药脂质体的细胞毒性可归因于紫杉醇、siRNA或联合处理。结论:成功形成单分散大小的脂质体,具有有效的药物和siRNA负载,并内化到OVCAR3和OVCAR3- t40细胞中。未来的工作包括研究脂质体系统介导基因沉默的功效。致谢:本工作得到了美国国家科学基金会EPSCoR项目(NSF Award # OIA-1655740和Clemson Creative Inquiry)的部分支持。引用文献:[1]张晓明,张晓明,张晓明,等。肿瘤临床研究进展[J] .中华肿瘤杂志,2018;68(4):284-296,[2].中华肿瘤杂志,2018;233(6):4546-4562,[3].中华肿瘤杂志,2019;11(10):547。引文格式:Samantha Gardner, Kharimat L. Alatise, Emily Miller, Emily Grant, Angela Alexander-Bryant。阳离子胆固醇脂质体联合治疗耐药卵巢癌[摘要]。见:美国癌症研究协会2021年年会论文集;2021年4月10日至15日和5月17日至21日。费城(PA): AACR;癌症杂志,2021;81(13 -增刊):第306期。
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