A new LDL-masked liposomal doxorubicin overcomes drug resistance in osteosarcoma

Gazzano Elena, Kopecka Joanna, D.B. Carolina, C. Costanzo, R. Chiara
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Abstract

One of the chemotherapeutic drugs in the first-line treatment of osteosarcoma is doxorubicin (dox). However, its anticancer efficacy is limited by the overexpression of the multidrug efflux transporter P-glycoprotein (Pgp) which extrudes doxorubicin, disrupts drug accumulation and thus hinders the cytotoxic activity of dox. The drug extrusion activity of Pgp is enhanced by the presence of cholesterol within the plasma membrane. Pgp expression is up-regulated by multiple transcription factors including hypoxia inducible factor-1α (HIF-1α). Decreasing Pgp expression and drug efflux activity may enhance the efficacy of doxorubicin against drug resistant osteosarcoma. To achieve this goal, we treated two human dox-sensitive cell lines (U-2OS and Saos-2), and their sublines displaying increasing Pgp levels and dox resistance, with a non-toxic dose of atorvastatin. This statin was able to decrease the biosynthesis of farnesyl pyrophosphate (FPP) and cholesterol, two key metabolites that were markedly increased in drug resistant sublines. By reducing the FPP levels, atorvastatin decreased the Ras/ERK1/2/HIF-1α axis and down-regulated Pgp expression. Moreover, by decreasing cholesterol biosynthesis atorvastatin increased the levels of low density lipoprotein receptor (LDLR), that was also progressively increased in the dox-resistant sublines. Taking advantage of this findings, we treated dox-resistant osteosarcoma with atorvastatin followed by treatment with dox encapsulated in liposomes decorated with an LDLRbinding peptide, hence facilitating binding to, and endocytosis via LDLR. This treatment strategy induced high retention of dox in dox-resistant cells, reduced cell viability in vitro and displayed growth inhibition of dox-resistance in mouse xenograft model. Hence, we propose the combination of statins plus LDL-decorated liposomal dox as a novel treatment strategy for Pgp-expressing multidrug resistant osteosarcomas.
一种新的低密度脂蛋白掩盖脂质体阿霉素克服骨肉瘤耐药
阿霉素(dox)是一线治疗骨肉瘤的化疗药物之一。然而,其抗癌功效受到多药外排转运蛋白p -糖蛋白(Pgp)的过度表达的限制,Pgp挤压阿霉素,破坏药物积累,从而阻碍阿霉素的细胞毒性活性。Pgp的药物挤压活性因存在于质膜内的胆固醇而增强。Pgp的表达被包括缺氧诱导因子-1α (HIF-1α)在内的多种转录因子上调。降低Pgp表达和药物外排活性可能会提高阿霉素治疗耐药骨肉瘤的疗效。为了实现这一目标,我们用无毒剂量的阿托伐他汀处理了两种人类dox敏感细胞系(U-2OS和Saos-2),它们的亚系显示Pgp水平增加和dox抗性。这种他汀类药物能够减少法尼酯焦磷酸(FPP)和胆固醇的生物合成,这两种关键代谢物在耐药亚群中显着增加。通过降低FPP水平,阿托伐他汀降低Ras/ERK1/2/HIF-1α轴,下调Pgp表达。此外,通过降低胆固醇的生物合成,阿托伐他汀增加了低密度脂蛋白受体(LDLR)的水平,这在犬抗药亚群中也逐渐增加。利用这一发现,我们用阿托伐他汀治疗dox-resistant osteosarcoma,然后用包裹有LDLRbinding peptide修饰的脂质体治疗dox,从而促进与LDLR的结合和通过LDLR的内吞作用。该处理策略诱导dox在dox耐药细胞中高度保留,降低了体外细胞活力,并在小鼠异种移植模型中显示出对dox耐药的生长抑制。因此,我们提出他汀类药物加ldl修饰脂质体dox作为表达pgp的多药耐药骨肉瘤的新治疗策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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