CD71-mediated liposomal arsenic-nickel complex combined with all-trans retinoic acid for the efficacy of acute promyelocytic leukemia

IF 10.7 1区 医学 Q1 PHARMACOLOGY & PHARMACY Asian Journal of Pharmaceutical Sciences Pub Date : 2023-07-01 DOI:10.1016/j.ajps.2023.100826
Xiao Liu , Lili Zhang , Yueying Yang , Weiwei Yin , Yunhu Liu , Chunyi Luo , Ruizhe Zhang , Zhiguo Long , Yanyan Jiang , Bing Wang
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Abstract

Clinically, arsenic trioxide (ATO) was applied to the treatment of acute promyelocytic leukemia (APL) as a reliable and effective frontline drug. However, the administration regimen of As was limited due to its fast clearance, short therapeutic window and toxicity as well. Based on CD71 overexpressed on APL cells, in present study, a transferrin (Tf)-modified liposome (LP) was established firstly to encapsulate As in arsenic-nickel complex by nickel acetate gradient method. The As-loaded liposomes (AsLP) exhibited the feature of acid-sensitive release in vitro. Tf-modified AsLP (Tf-AsLP) were specifically taken up by APL cells and the acidic intracellular environment triggered liposome to release As which stimulated reactive oxygen species level and caspase-3 activity. Tf-AsLP prolonged half-life of As in blood circulation, lowered systemic toxicity, and promoted apoptosis and induced cell differentiation at lesion site in vivo. Considering that ATO combined with RA is usually applied as the first choice in clinic for APL treatment to improve the therapeutic effect, accordingly, a Tf-modified RA liposome (Tf-RALP) was designed to reduce the severe side effects of free RA and assist Tf-AsLP for better efficacy. As expected, the tumor inhibition rate of Tf-AsLP was improved significantly with the combination of Tf-RALP on subcutaneous tumor model. Furthermore, APL orthotopic NOD/SCID mice model was established by 60CO irradiation and HL-60 cells intravenously injection. The effect of co-administration (Tf-AsLP + Tf-RALP) was also confirmed to conspicuous decrease the number of leukemia cells in the circulatory system and prolong the survival time of APL mice by promoting the APL cells’ apoptosis and differentiation in peripheral blood and bone marrow. Collectively, Tf-modified acid-sensitive AsLP could greatly reduce the systemic toxicity of free drug. Moreover, Tf-AsLP combined with Tf-RALP could achieve better efficacy. Thus, transferrin-modified As liposome would be a novel clinical strategy to improve patient compliance, with promising translation prospects.

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cd71介导的脂质体砷镍复合物联合全反式维黄酸治疗急性早幼粒细胞白血病的疗效
临床上,三氧化二砷(ATO)作为一种可靠有效的一线药物应用于急性早幼粒细胞白血病(APL)的治疗。然而,AsⅢ的给药方案因其清除快、治疗窗口短和毒性而受到限制。本研究以APL细胞上过表达的CD71为基础,首次建立了转铁蛋白修饰的脂质体(LP),用醋酸镍梯度法将AsⅢ包裹在砷-镍复合物中。AsⅢ负载脂质体(AsLP)具有体外酸敏释放特性。Tf修饰的AsLP(Tf-AsLP)被APL细胞特异性摄取,酸性细胞内环境触发脂质体释放AsⅢ,刺激活性氧水平和胱天蛋白酶-3活性。Tf-AsLP延长了AsⅢ在血液循环中的半衰期,降低了全身毒性,并在体内促进了损伤部位的细胞凋亡和诱导细胞分化。考虑到ATO联合RA通常是临床上APL治疗的首选药物,以提高治疗效果,因此,设计了一种Tf修饰的RA脂质体(Tf-RALP),以减少游离RA的严重副作用,并辅助Tf-AsLP获得更好的疗效。正如预期的那样,Tf-AsLP在皮下肿瘤模型上的抑瘤率与Tf-RALP的组合显著提高。采用60CO照射和静脉注射HL-60细胞建立APL原位NOD/SCID小鼠模型。联合给药(Tf-AsLP+Tf-RALP)也证实了通过促进APL细胞在外周血和骨髓中的凋亡和分化,显著减少循环系统中白血病细胞的数量,延长APL小鼠的生存时间。总的来说,Tf修饰的酸敏AsLP可以大大降低游离药物的全身毒性。此外,Tf-AsLP与Tf-RALP联合应用可获得更好的疗效。因此,转铁蛋白修饰的AsⅢ脂质体将是一种提高患者依从性的新的临床策略,具有良好的翻译前景。
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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来源期刊
Asian Journal of Pharmaceutical Sciences
Asian Journal of Pharmaceutical Sciences Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
18.30
自引率
2.90%
发文量
11
审稿时长
14 days
期刊介绍: The Asian Journal of Pharmaceutical Sciences (AJPS) serves as the official journal of the Asian Federation for Pharmaceutical Sciences (AFPS). Recognized by the Science Citation Index Expanded (SCIE), AJPS offers a platform for the reporting of advancements, production methodologies, technologies, initiatives, and the practical application of scientific knowledge in the field of pharmaceutics. The journal covers a wide range of topics including but not limited to controlled drug release systems, drug targeting, physical pharmacy, pharmacodynamics, pharmacokinetics, pharmacogenomics, biopharmaceutics, drug and prodrug design, pharmaceutical analysis, drug stability, quality control, pharmaceutical engineering, and material sciences.
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