Chih-Te Chien scite author profile

We report on caged Pt nanoclusters that are able to exert tumor-inside activation for anticancer chemotherapeutics and to minimize systemic toxicity. By shrinking the Pt size to 1 nm, it possesses corrodibility for dissolution in weakly acidic organelles to release toxic Pt ions. The therapeutic effect in exerting tumor-inside activation is confirmed in vivo by post-modifying a pH-cleavable PEG corona and mixing it with a tumor-homing peptide for tumour suppression.

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Recent progress in copolymer-mediated siRNA delivery

Chien

Liu

et al. 2012

Journal of Drug Targeting

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RNAi-mediated gene silencing has great potential for treating various diseases, including cancer, by delivering a specific short interfering RNA (siRNA) to knock down pathogenic mRNAs and suppress protein translation. Although many researchers are dedicated to devising polymer-based vehicles for exogenous in vitro siRNA transfection, few synthetic vehicles are feasible in vivo. Recent studies have presented copolymer-based vectors that are minimally immunogenic and facilitate highly efficient internalizing of exogenous siRNA, compared with homopolymer-based vectors. Cationic segments, organelle-escape units, and degradable fragments are essential to a copolymer-based vehicle for siRNA delivery. The majority of these cationic segments are derived from polyamines, including polylysine, polyarginine, chitosan, polyethylenimines and polyamidoamine dendrimers. Not only do these cationic polyamines protect siRNA, they can also promote disruption of endosomal membranes. Degradable fragments of copolymers must be derived from various polyelectrolytes to release the siRNA once the complexes enter the cytoplasm. This review describes recent progress in copolymer-mediated siRNA delivery, including various building blocks for biocompatible copolymers for efficient in vitro siRNA delivery, and a useful basis for addressing the challenges of in vivo siRNA delivery.

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Corrosion‐Activated Chemotherapeutic Function of Nanoparticulate Platinum as a Cisplatin Resistance‐Overcoming Prodrug with Limited Autophagy Induction

Cheng

Chien

et al. 2016

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Despite nanoparticulate platinum (nano-Pt) has been validated to be acting as a platinum-based prodrug for anticancer therapy, the key factor in controlling its cytotoxicity remains to be clarified. In this study, it is found that the corrosion susceptibility of nano-Pt can be triggered by inducing the oxidization of superficial Pt atoms, which can kill both cisplatin-sensitive/resistance cancer cells. Direct evidence in the oxidization of superficial Pt atoms is validated to observe the formation of platinum oxides by X-ray absorption spectroscopy. The cytotoxicity is originated from the dissolution of nano-Pt followed by the release of highly toxic Pt ions during the corrosion process. Additionally, the limiting autophagy induction by nano-Pt might prevent cancer cells from acquiring autophagy-related drug resistance. With such advantages, the possibility of further autophagy-related drug resistance could be substantially reduced or even eliminated in cancer cells treated with nano-Pt. Moreover, nano-Pt is demonstrated to kill cisplatin-resistant cancer cells not only by inducing apoptosis but also by inducing necrosis for pro-inflammatory/inflammatory responses. Thus, nano-Pt treatment might bring additional therapeutic benefits by regulating immunological responses in tumor microenvironment. These findings support the idea that utilizing nano-Pt for its cytotoxic effects might potentially benefit patients with cisplatin resistance in clinical chemotherapy.

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A single-monomer derived linear-like PEI-co-PEG for siRNA delivery and silencing

et al. 2011

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Co-caged gold nanoclusters and methyl motifs lead to detoxification of dendrimers and allow cytosolic access for siRNA transfection

Chien

Liu

et al. 2014

J. Mater. Chem. B

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Chih-Te Chien

Caged Pt Nanoclusters Exhibiting Corrodibility to Exert Tumor‐Inside Activation for Anticancer Chemotherapeutics

Recent progress in copolymer-mediated siRNA delivery

Corrosion‐Activated Chemotherapeutic Function of Nanoparticulate Platinum as a Cisplatin Resistance‐Overcoming Prodrug with Limited Autophagy Induction

A single-monomer derived linear-like PEI-co-PEG for siRNA delivery and silencing

Co-caged gold nanoclusters and methyl motifs lead to detoxification of dendrimers and allow cytosolic access for siRNA transfection

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