NIR-dye bridged human serum albumin reassemblies for effective photothermal therapy of tumor

NIR-dye bridged human serum albumin reassemblies for effective photothermal therapy of tumor

Human serum albumin (HSA) based drug delivery platforms that feature desirable biocompatibility and pharmacokinetic property are rapidly developed for tumor-targeted drug delivery. Even though various HSA-based platforms have been established, it is still of great significance to develop more effici...

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Bibliographic Details
Main Authors: Shi, Zhaoqing, Luo, Miaomiao, Huang, Qili, Ding, Chendi, Wang, Wenyan, Wu, Yinglong, Luo, Jingjing, Lin, Chuchu, Chen, Ting, Zeng, Xiaowei, Mei, Lin, Zhao, Yanli, Chen, Hongzhong
Other Authors: School of Chemistry, Chemical Engineering and Biotechnology
Format: Article
Language:English
Published: 2024
Subjects:
Engineering::Bioengineering
Photothermal Therapy
Human Serum Albumin
Online Access:https://hdl.handle.net/10356/172998
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Institution: Nanyang Technological University
Language: English
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Summary:Human serum albumin (HSA) based drug delivery platforms that feature desirable biocompatibility and pharmacokinetic property are rapidly developed for tumor-targeted drug delivery. Even though various HSA-based platforms have been established, it is still of great significance to develop more efficient preparation technology to broaden the therapeutic applications of HSA-based nano-carriers. Here we report a bridging strategy that unfastens HSA to polypeptide chains and subsequently crosslinks these chains by a bridge-like molecule (BPY-Mal2) to afford the HSA reassemblies formulation (BPY@HSA) with enhanced loading capacity, endowing the BPY@HSA with uniformed size, high photothermal efficacy, and favorable therapeutic features. Both in vitro and in vivo studies demonstrate that the BPY@HSA presents higher delivery efficacy and more prominent photothermal therapeutic performance than that of the conventionally prepared formulation. The feasibility in preparation, stability, high photothermal conversion efficacy, and biocompatibility of BPY@HSA may facilitate it as an efficient photothermal agents (PTAs) for tumor photothermal therapy (PTT). This work provides a facile strategy to enhance the loading capacity of HSA-based crosslinking platforms in order to improve delivery efficacy and therapeutic effect.

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