Direct Detection of Pulmonary Fibrosis by Near-Infrared-Responsive Biomimetic Platelets
Guanlie Li, Haiqing He, Guodong Zheng, Wenjing Jiang, Shuwen Du, Hua Tao, Tao Xiao, Dazhi Zhou, Shangwei Ding, Xi-Yong Yu, Yu Zhang, Ao Shen
Journal:International Journal of Nanomedicine
IF:7.03
DOI:10.2147/IJN.S334331
PMID:35046651
Published:2022-01-10
research field:分子生物学肿瘤免疫治疗免疫学药物递送纳米医学
Abstract
Background Pulmonary fibrosis (PF) is a fatal lung disease and affects over 5 million patients worldwide. Precise and early detection of PF is of pivotal importance to slow the disease progression. However, there are currently no effective tools to detect PF directly. Purpose This study aimed to develop an imaging modality to detect PF directly. Excessive collagen deposition is the hallmark of PF. Herein, we developed a novel PF diagnostic agent, namely PVD (platelets-derived nanovesicles labeled with dye), by utilizing near-infrared (NIR)-responsive biomimetic platelets that specifically recognize collagen. Methods In brief, platelets membrane was extracted from purified platelets by freeze/thaw and formed to PVD nanovesicles via sonication and extrusion, when loaded with DiR dye. Red blood cells membrane loaded with DiR was prepared in the same way as PVD to form RVD as control. Collagen self-assembled on microplates was used as an in vitro collagen fibrils model and monocrotaline-induced rats were used as an in vivo PF model. Results We demonstrated that PVD, but not RVD nor other controls, could bind collagen both in vitro and in vivo, and directly detect pulmonary fibrosis in vivo and ex vivo at the early PF stage. Conclusion Collectively, PVD is a versatile NIR-responsive probe for the direct visualization of collagen, and can be particularly helpful in direct detecting PF. To the best of our knowledge, PVD is the first report of a NIR probe for the direct detection of pulmonary fibrosis.
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