Molecularly Tailored Artesunate Nanomedicine with Well-Balanced Nanoassembly and Anticancer Performance
Haonan Wu, Xuan Zhang, Xiaomei Shu, Hongyuan Zhang, Wenhu Zhou, Shenwu Zhang, Cong Luo

TL;DR
Researchers developed a new nanomedicine using artesunate that improves cancer treatment by balancing drug delivery and effectiveness.
Contribution
A novel unsaturated aliphatic chain-driven strategy enhances artesunate's antitumor activity while maintaining nanoassembly stability.
Findings
Unsaturated aliphatic chain conjugates (ART-LA) retain antitumor activity and self-assemble effectively.
ART-LA-based nanomedicine shows improved pharmacokinetics and tumor-specific distribution in mice.
The strategy enhances artesunate's clinical potential by reducing toxicity and improving tumor selectivity.
Abstract
Background: Artesunate (ART), a natural product derivative of artemisinin, exhibits striking antitumor activity. However, the clinical translation of ART is limited by rapid clearance, poor tumor selectivity, and severe off-target toxicity. To address these limitations, we developed an unsaturated aliphatic chain-driven nanoassembly strategy to optimize the therapeutic performance of ART. Methods: We designed and synthesized two ART derivatives by conjugating saturated aliphatic chains (ART-SAs) or unsaturated aliphatic chains (ART-LAs) to ART, which subsequently self-assembled into carrier-free nanoassemblies (NAs). These NAs were characterized for their self-assembly capacity and colloidal stability. Biological evaluations included studies on cellular uptake efficiency, in vivo pharmacokinetics, and antitumor efficacy in a tumor-bearing mouse model. Results: The saturated aliphatic…
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Taxonomy
TopicsNanoparticle-Based Drug Delivery · Malaria Research and Control · Nanoplatforms for cancer theranostics
