| Literature DB >> 32061623 |
Tao Sun1, Guangping Zhang2, Zhongyuan Guo1, Qinjun Chen1, Yujie Zhang1, Yongchao Chu1, Qin Guo1, Chao Li1, Wenxi Zhou1, Yiwen Zhang1, Peixin Liu1, Hongyi Chen1, Haijun Yu3, Liping Jiang4, Chen Jiang5.
Abstract
Chelating Cu from tumors has been verified as an effective and promising strategy for cancer therapy through antiangiogenesis. However, systematic removal Cu by injecting with Cu chelators will result unavoidable side effects, since Cu is indispensable to the body. In this work, a micelle targeting to tumors' newborn vessels based on a polypeptide was developed to co-load DOX and Probe X, which can go through an "OFF-to-ON" procedure to report the Cu+-capture events in vivo in a real-time way by giving near infrared (NIR) fluorescence and photoacoustic signal. By co-delivering antiangiogenesis and chemotherapeutic reagents, the tumor can be significantly suppressed, meanwhile with a low systematic toxicity. Hopefully, this work can offer new insights in designing sophisticated antitumor strategy.Entities:
Keywords: Antiangiogenesis; Co-delivery; Cu chelator; Real-time reporting; Theranostic
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Year: 2020 PMID: 32061623 DOI: 10.1016/j.jconrel.2020.02.023
Source DB: PubMed Journal: J Control Release ISSN: 0168-3659 Impact factor: 9.776