College of Chemical and Biological Engineering, Zhejiang University, Hangzhou, China.
School of Basic Medical Sciences and Women's Hospital, Zhejiang University School of Medicine & Cancer Center, Zhejiang University, Hangzhou, China.
Acta Biomater. 2022 Jan 1;137:262-275. doi: 10.1016/j.actbio.2021.10.034. Epub 2021 Oct 27.
Clinical development of 7-ethyl-10‑hydroxy-camptothecin (SN38), the active metabolite of irinotecan (CPT-11), is hindered by its insolubility and poor stability. Another obstacle is that tumors could become resistant to SN38/CPT-11 through multiple mechanisms involving breast cancer resistance protein (BCRP). Herein one of the most potent and selective BCRP inhibitors, Ko143, is encapsulated into a recently constructed prodrug PEG-S-S-SN38 displaying a high and fixed drug loading, multiple intratumoral stimuli (oxidative stress, GSH and esterase)-responsive drug release and significant in vitro and in vivo superiorities over CPT-11. The obtained "combo" for simultaneous delivery of SN38 and Ko143, named as BI@PEG-SN38, has a high SN38 loading efficacy (14.85 wt.%) and a good Ko143 encapsulation efficacy (3.79%). Through generating panels of human colorectal cancer models expressing altered levels of BCRP via lentiviral transfection and CRISPR-Cas9, characteristics of different drug formulations are carefully evaluated. Impressively, BI@PEG-SN38 nanoparticles effectively reverse chemoresistance to CPT-11 (resistance index dropping from ∼274.00-456.00 to ∼1.70-4.68) and PEG-S-S-SN38 (resistance index dropping from ∼5.83-14.00 to ∼1.70-4.68) in three BCRP-overexpressing cancer cell lines. More importantly, reversal of BCRP-mediated chemoresistance to CPT-11 (P values lower than 0.001-0.0001) and PEG-S-S-SN38 (P values lower than 0.01-0.001) by BI@PEG-SN38 nanoparticles are further confirmed with two panels of colorectal cancer xenograft models in vivo. As the first nano-formulation of Ko143 and the first systemic co-delivery vehicle of SN38/CPT-11 and a BCRP inhibitor, BI@PEG-SN38 provides a new approach for resolving the bottlenecks for clinical translation of SN38 and numerous "chemosensitizers" like Ko143, and exhibits promising applicability in precision cancer medicine. STATEMENT OF SIGNIFICANCE: To resolve the bottlenecks in clinical application of anticancer agents SN38/CPT-11 and the most potent breast cancer resistant protein (BCRP) inhibitor Ko143, a "combo" nanotherapeutic simultaneously delivering SN38 and Ko143 was constructed and named as BI@PEG-SN38. By generating panels of colorectal cancer models, we demonstrate that BI@PEG-SN38 nanoparticles effectively and selectively reversed BCRP-mediated tumor resistance to SN38/CPT-11 in vitro and in vivo. As the first nano-formulation of Ko143 and the first systemic co-delivery vehicle of SN38/CPT-11 and a BCRP inhibitor, BI@PEG-SN38 provides a new strategy for clinical development of SN38 and numerous "chemosensitizers", and exhibits promising applicability in precision cancer medicine. Panels of cancer cell lines established here provides a useful platform for BCRP- and cancer-related research and technology development.
7-乙基-10-羟基喜树碱(SN38)是伊立替康(CPT-11)的活性代谢物,其临床开发受到其不溶性和较差的稳定性的阻碍。另一个障碍是肿瘤可能通过涉及乳腺癌耐药蛋白(BCRP)的多种机制对 SN38/CPT-11 产生耐药性。本文报道了一种最有效和选择性的 BCRP 抑制剂 Ko143,它被包裹在最近构建的前药 PEG-S-S-SN38 中,具有高且固定的药物载药量、多种肿瘤内刺激(氧化应激、GSH 和酯酶)响应的药物释放以及与 CPT-11 相比具有显著的体外和体内优势。这种用于同时递送 SN38 和 Ko143 的“组合”,命名为 BI@PEG-SN38,具有高的 SN38 负载效率(14.85wt.%)和良好的 Ko143 包封效率(3.79%)。通过使用慢病毒转染和 CRISPR-Cas9 构建表达改变水平的 BCRP 的人结直肠癌细胞模型,仔细评估了不同药物制剂的特性。令人印象深刻的是,BI@PEG-SN38 纳米粒有效地逆转了 CPT-11(耐药指数从274.00-456.00 降至1.70-4.68)和 PEG-S-S-SN38(耐药指数从5.83-14.00 降至1.70-4.68)在三种 BCRP 过表达的癌细胞系中的化学抗性。更重要的是,BI@PEG-SN38 纳米粒通过逆转 BCRP 介导的 CPT-11(P 值低于 0.001-0.0001)和 PEG-S-S-SN38(P 值低于 0.01-0.001)的化学抗性在体内两种结直肠癌细胞移植瘤模型中得到了进一步证实。作为 Ko143 的第一个纳米制剂和 SN38/CPT-11 和 BCRP 抑制剂的第一个全身共递药载体,BI@PEG-SN38 为解决 SN38 和众多“化疗增敏剂”如 Ko143 的临床转化的瓶颈提供了一种新方法,并在精准癌症医学中具有广阔的应用前景。
为了解决抗癌药物 SN38/CPT-11 和最有效的乳腺癌耐药蛋白(BCRP)抑制剂 Ko143 在临床应用中的瓶颈问题,构建并命名了一种同时递送 SN38 和 Ko143 的“组合”纳米治疗剂 BI@PEG-SN38。通过生成结直肠癌细胞模型组,我们证明 BI@PEG-SN38 纳米粒在体外和体内有效且选择性地逆转了 BCRP 介导的 SN38/CPT-11 肿瘤耐药性。作为 Ko143 的第一个纳米制剂和 SN38/CPT-11 和 BCRP 抑制剂的第一个全身共递药载体,BI@PEG-SN38 为 SN38 和众多“化疗增敏剂”的临床开发提供了一种新策略,并在精准癌症医学中具有广阔的应用前景。这里建立的癌细胞系模型组为 BCRP 和癌症相关的研究和技术开发提供了一个有用的平台。
