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Research Article | Open Access | Just Accepted

Microfluidic programmable sequential-release nanoparticles enhancing Icariside II–cisplatin synergy via cholesterol modulation in NSCLC

Liang Ye§Bing Yang§Zhi-wei XiongYi-xin PanDan-Dan ZhuShu-qi HuBen-hong LiLin GanHeng-yu ZhangBo-han WangJian Li( )Xiao-bin Jia( )Liang Feng( )

School of Traditional Chinese Pharmacy, Affiliated Jiangning Hospital of Chinese Medicine, China Pharmaceutical University, Nanjing 211198, China

§ Liang Ye and Bing Yang contributed equally to this work.

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Abstract

Combination chemotherapy is a cornerstone of non-small cell lung cancer (NSCLC) treatment, with cisplatin (CDDP) serving as a frontline agent, but its clinical utility is severely compromised by resistance and systemic toxicity. Overcoming these limitations requires both effective CDDP-sensitizing agents and delivery systems capable of precisely controlling drug ratios and release sequence. Here, we identified Icariside II (IS), a bioactive flavonoid from Epimedium species, as a potent CDDP sensitizer. Synergy analyses confirmed that IS and CDDP exert strong cooperative effects at a 1:2 molar ratio. Mechanistically, IS downregulated HMGCR/SREBF2, reduced intracellular cholesterol, and enhanced CDDP uptake and DNA damage, with IS pretreatment followed by CDDP producing the strongest antitumor effects. Guided by this mechanism, we engineered dual-drug polymer–lipid hybrid nanoparticles using a custom TrH microfluidic chip. Distinct from conventional methods, the TrH platform enabled programmable co-encapsulation with precise ratio control and intrinsic, stimulus-independent sequential release. Among the formulations, CDDP-IS@MNPs—programmed to release IS prior to CDDP—most effectively recapitulated the optimal sequence, inducing robust apoptosis in vitro, >70% tumor growth inhibition in xenografts, prolonged survival in orthotopic models, and reduced cisplatin-induced hepatic and renal toxicity. Collectively, compared with our previous formulation-oriented work, this study achieves a substantial conceptual advance by integrating mechanistic insight with programmable microfluidic design, transforming the TrH chip into a preclinically validated platform for stepwise nanomedicine delivery, while also providing a promising therapeutic strategy to address the long-standing challenges of cisplatin-based combination chemotherapy.

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Cite this article:
Ye L, Yang B, Xiong Z-w, et al. Microfluidic programmable sequential-release nanoparticles enhancing Icariside II–cisplatin synergy via cholesterol modulation in NSCLC. Nano Research, 2026, https://doi.org/10.26599/NR.2026.94908944
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Received: 20 January 2026
Revised: 15 June 2026
Accepted: 17 June 2026
Available online: 17 June 2026

© The Author(s) 2026. Published by Tsinghua University Press.

This is an open access article under the terms of the Creative Commons Attribution 4.0 International License (CC BY 4.0, https://creativecommons.org/licenses/by/4.0/)