首页|Amino acids and doxorubicin as building blocks for metal ion‐driven self‐assembly of biodegradable polyprodrugs for tumor theranostics
Amino acids and doxorubicin as building blocks for metal ion‐driven self‐assembly of biodegradable polyprodrugs for tumor theranostics
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NSTL
Elsevier
? 2022 Acta Materialia Inc.On-demand designed theranostics nanoagents show promising applications for next-generation precision-and-personalized oncotherapy. Researchers have since aimed to develop nanoplatforms that can efficiently deliver drugs and contrast medium to tumor and release active ingredients in response to tumor microenvironment (TME) conditions. Herein, we propose a modular strategy, and develop a series of nanoplatforms based on metal-coordinated-polyprodrugs for cancer theranostics. The polyprodrugs were synthesized through a click-reaction between amino acid and doxorubicin (DOX) with dipropiolate. The backbones of the polyprodrugs had intrinsic sensitivities to pH and/or GSH, and provided abundant -COOH, -NH2, or -S-S- to chelate with functional metal ions and further self-assembled to form different morphologies. Dicysteine, which contains disulfide bond (-S-S-), was chosen to copolymerize with DOX and triethylene glycol dipropiolate (TEP) to prepare the pH/GSH dual-responsive polyprodrug poly(dicysteine-co-TEP-co-DOX) (pDTD), then separately coordinated with Gd3+, Fe3+, and Mn2+ to construct nanoplatforms pDTD@M (M representing the metal ions). In vitro and in vivo investigations suggest the metal-coordinated-polyprodrug nanoplatforms have good magnetic resonance imaging (MRI) ability and efficient tumor-growth inhibition with high safety. The design strategy of nanoplatforms based on metal-coordinated-polyprodrugs provides a new idea for on-demand construction of promising theranostics agents. Statement of significance: Compared to small molecule antitumor drugs, polymeric drugs have high drug loading ratio and are easily enriched at the tumor site to achieve improved therapy efficacy. This work utilizes click reactions to link amino acids with anticancer drugs to produce polymeric drugs that are degraded in response to tumor microenvironment and released small molecule antitumor drugs mainly in tumor sites, and subtly utilizes the coordination of amino acid to chelate MRI functional metal ion to realize enhanced MRI imaging mediated tumor therapy. This strategy provides a new idea for the convenient construction of polymeric drugs for tumor theranostics.
NSTL
Elsevier
