Haiyang Yu scite author profile

Hypoxia‐activated prodrugs (HAPs) have the potential to selectively kill hypoxic cells and convert tumor hypoxia from a problem to a selective treatment advantage. However, HAPs are unsuccessful in most clinical trials owing to inadequate hypoxia within the treated tumors, as implied by a further substudy of a phase II clinical trial. Here, a novel strategy for the combination of HAPs plus vascular disrupting agent (VDA) nanomedicine for efficacious solid tumor therapy is developed. An effective VDA nanomedicine of poly(l‐glutamic acid)‐graft‐methoxy poly(ethylene glycol)/combretastatin A4 (CA4‐NPs) is prepared and can selectively enhance tumor hypoxia and boost a typical HAP tirapazamine (TPZ) therapy against metastatic 4T1 breast tumors. After treatment with the combination of TPZ plus CA4‐NPs, complete tumor reduction is observed in 4T1 xenograft mice (initial tumor volume is 180 mm3), and significant tumor shrinkage and antimetastatic effects are observed in challenging large tumors with initial volume of 500 mm3. The report here highlights the potential of using a combination of HAPs plus VDA nanomedicine in solid tumor therapy.

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pH-Triggered Charge-Reversal Polypeptide Nanoparticles for Cisplatin Delivery: Preparation and In Vitro Evaluation

Huang

et al. 2013

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A series of pH-responsive random copolymer poly(l-glutamic acid-co-l-lysine) [P(Glu-co-Lys)] were synthesized through the ring-opening polymerization (ROP) of γ-benzyl-l-glutamate N-carboxyanhydride (BLG-NCA) and 3-benzyloxycarbonyl-l-lysine N-carboxyanhydride (ZLys-NCA) and the subsequent deprotection. The chemical structure of the P(Glu-co-Lys)s was confirmed by NMR. Critical aggregation concentration and transmission electron microscopy measurements indicated that the P(Glu-co-Lys)s could self-assemble into aggregates in phosphate buffer. The surface charge of P(Glu-co-Lys) aggregates was greatly affected by the solution's pH and l-glutamic acid/l-lysine ratio because the carboxyl and amino groups present on the P(Glu-co-Lys) aggregates could be protonated or deprotonated to become charged. The pH value of the solution at which the surface charge of the P(Glu-co-Lys) aggregates reversed could be manipulated by the feed ratio of BLG-NCA and ZLys-NCA. In vitro methyl thiazolyl tetrazolium assays demonstrated that negatively charged P(Glu-co-Lys)s were nontoxic and biocompatible. Positive charged P(Glu-co-Lys)s showed some cytotoxicity to Hela cells. Cisplatin (CDDP) was used as a model anticancer drug to evaluate the charge-reversal drug delivery system. By the manipulation of CDDP loading content, the surface charge of the CDDP/P(Glu-co-Lys) nanoparticles could be reversed to positive from negative at tumor extracellular pH (pHe 6.5-7.2). An enhanced drug uptake and inhibition of cancer cell proliferation were observed for the tumoral pHe triggered charge-reversal CDDP/P(Glu-co-Lys) drug delivery system. These indicated that the CDDP/P(Glu-co-Lys) nanoparticles could be used as intelligent drug delivery systems for cancer therapy.

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Haiyang Yu

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹

Selectively Potentiating Hypoxia Levels by Combretastatin A4 Nanomedicine: Toward Highly Enhanced Hypoxia‐Activated Prodrug Tirapazamine Therapy for Metastatic Tumors

pH-Triggered Charge-Reversal Polypeptide Nanoparticles for Cisplatin Delivery: Preparation and In Vitro Evaluation

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Haiyang Yu

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)1

Selectively Potentiating Hypoxia Levels by Combretastatin A4 Nanomedicine: Toward Highly Enhanced Hypoxia‐Activated Prodrug Tirapazamine Therapy for Metastatic Tumors

pH-Triggered Charge-Reversal Polypeptide Nanoparticles for Cisplatin Delivery: Preparation and In Vitro Evaluation

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Product

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Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)¹