Red blood cell-hitchhiking mediated pulmonary delivery of ivermectin: Effects of nanoparticle properties

[Display omitted] •Ivermectin-loaded nanoparticles were delivered to lungs through adsorption on RBCs.•RBC-hitchhiking strategy improved ivermectin pharmacokinetics and bioavailability.•Nanoparticle properties affected the characteristics of RBC-nanoparticles in vivo. Recent studies have demonstrate...

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Veröffentlicht in:International journal of pharmaceutics 2022-05, Vol.619, p.121719-121719, Article 121719
Hauptverfasser: Zheng, Jinpeng, Lu, Caihong, Ding, Yaning, Zhang, Jinbang, Tan, Fangyun, Liu, Jingzhou, Yang, Guobao, Wang, Yuli, Li, Zhiping, Yang, Meiyan, Yang, Yang, Gong, Wei, Gao, Chunsheng
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Sprache:eng
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Zusammenfassung:[Display omitted] •Ivermectin-loaded nanoparticles were delivered to lungs through adsorption on RBCs.•RBC-hitchhiking strategy improved ivermectin pharmacokinetics and bioavailability.•Nanoparticle properties affected the characteristics of RBC-nanoparticles in vivo. Recent studies have demonstrated that ivermectin (IVM) exhibits antiviral activity against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the causative virus of coronavirus disease 2019 (COVID-19). However, the repurposing of IVM for the treatment of COVID-19 has presented challenges primarily due to the low IVM plasma concentration after oral administration, which was well below IC50. Here, a red blood cell (RBC)-hitchhiking strategy was used for the targeted delivery of IVM-loaded nanoparticles (NPs) to the lung. IVM-loaded poly (lactic-co-glycolic acid) (PLGA) NPs (IVM-PNPs) and chitosan-coating IVM-PNPs (IVM-CSPNPs) were prepared and adsorbed onto RBCs. Both RBC-hitchhiked IVM-PNPs and IVM-CSPNPs could significantly enhance IVM delivery to lungs, improve IVM accumulation in lung tissue, inhibit the inflammatory responses and finally significantly alleviate the progression of acute lung injury. Specifically, the redistribution and circulation effects were related to the properties of NPs. RBC-hitchhiked cationic IVM-CSPNPs showed a longer circulation time, slower accumulation and elimination rates, and higher anti-inflammatory activities than RBC-hitchhiked anionic IVM-PNPs. Therefore, RBC-hitchhiking provides an alternative strategy to improve IVM pharmacokinetics and bioavailability for repurposing of IVM to treat COVID-19. Furthermore, according to different redistribution effects of different NPs, RBC-hitchhiked NPs may achieve various accumulation rates and circulation times for different requirements of drug delivery.
ISSN:0378-5173
1873-3476
DOI:10.1016/j.ijpharm.2022.121719