Yudi Ma scite author profile

Topical administration of anticancer drugs provides a potential chemotherapeutic modality with high patient compliance for cutaneous melanoma. However, the drug delivery efficiency is highly limited by physiological barriers from the skin to the tumor, which cannot acquire desired therapeutic efficacy. Herein, we propose a paintable oligopeptide hydrogel containing paclitaxel (PTX)-encapsulated cell-penetrating-peptide (CPP)-modified transfersomes (PTX-CTs) to enhance transdermal PTX delivery for topical melanoma treatment. After being plastered on the skin above the melanoma tumor, the PTX-CTs-embedded hydrogel (PTX-CTs/Gel) as a patch provided prolonged retention capacity of the PTX-CTs on the skin. The PTX-CTs with superior deformability could efficiently squeeze through the channels in the stratum coreum, and the surfactant components improved the fluidity of the lipid molecules in the stratum corneum to further enhance the skin permeation. Moreover, the CPP modification rendered the PTX-CT-enhanced penetration in the skin and tumor stroma as well as efficient transportation in the tumor cells. The PTX-CTs were shown to effectively slow the tumor growth in combination with the systemic chemotherapy using Taxol, the commercial PTX formulation on the xenograft B10F16 melanoma mouse model.

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Oriented efficient biosynthesis of rare ginsenoside Rh2 from PPD by compiling UGT-Yjic mutant with sucrose synthase

Zhao

et al. 2020

International Journal of Biological Macromolecules

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Enzyme-instructed hybrid nanogel/nanofiber oligopeptide hydrogel for localized protein delivery

Jiang

et al. 2021

Acta Pharmaceutica Sinica B

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Enzyme-catalysis self-assembled oligopeptide hydrogel holds great interest in drug delivery, which has merits of biocompatibility, biodegradability and mild gelation conditions. However, its application for protein delivery is greatly limited by inevitable degradation of enzyme on the encapsulated proteins leading to loss of protein activity. Moreover, for the intracellularly acted proteins, cell membrane as a primary barrier hinders the transmembrane delivery of proteins. The internalized proteins also suffer from acidic and enzymatic degradation in endosomes and lysosomes. We herein develop a protease-manipulated hybrid nanogel/nanofiber hydrogel for localized delivery of intracellularly acted proteins. The embedded polymeric nanogels (CytoC/aNGs) preserve activity of cytochrome c (CytoC) that is an intracellular activator for cell apoptosis as a model protein against proteolysis, and do not affect the gelation properties of the protease-catalysis assembled hydrogels. The injectable hydrogel (CytoC/aNGs/Gel) serves as a reservoir to enhance intratumoral retention and realize sustainable release of CytoC/aNGs. The released CytoC/aNGs increase cellular uptake of CytoC and enhance its intracellular delivery to its target site, cytoplasm, resulting in favorable apoptosis-inducing and cytotoxic effects. We show that a single local administration of CytoC/aNGs/Gel efficiently inhibit the tumor growth in the breast tumor mouse model.

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Topical delivery of chemotherapeutic drugs using nano-hybrid hydrogels to inhibit post-surgical tumour recurrence

Liu

Guo

et al. 2021

Biomater. Sci.

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Yudi Ma

Enhanced Transdermal Drug Delivery by Transfersome-Embedded Oligopeptide Hydrogel for Topical Chemotherapy of Melanoma

Oriented efficient biosynthesis of rare ginsenoside Rh2 from PPD by compiling UGT-Yjic mutant with sucrose synthase

Enzyme-instructed hybrid nanogel/nanofiber oligopeptide hydrogel for localized protein delivery

Topical delivery of chemotherapeutic drugs using nano-hybrid hydrogels to inhibit post-surgical tumour recurrence

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