Endothelial targeting of antibody-decorated polymeric filomicelles

Vladimir V. Shuvaev, Marc A. Ilies, Eric Simone, Sergei Zaitsev, Younghoon Kim, Shenshen Cai, Abdullah Mahmud, Thomas Dziubla, Silvia Muro, Dennis E. Discher, Vladimir R. Muzykantov

Research output: Contribution to journalArticlepeer-review

103 Scopus citations


The endothelial lining of the lumen of blood vessels is a key therapeutic target for many human diseases. Polymeric filomicelles that self-assemble from polyethylene oxide (PEO)-based diblock copolymers are long and flexible rather than small or rigid, can be loaded with drugs, and-most importantly-they circulate for a prolonged period of time in the bloodstream due in part to flow alignment. Filomicelles seem promising for targeted drug delivery to endothelial cells because they can in principle adhere strongly, length-wise to specific cell surface determinants. In order to achieve such a goal of vascular drug delivery, two fundamental questions needed to be addressed: (i) whether these supramolecular filomicelles retain structural integrity and dynamic flexibility after attachment of targeting molecules such as antibodies, and (ii) whether the avidity of antibody-carrying filomicelles is sufficient to anchor the carrier to the endothelial surface despite the effects of flow that oppose adhesive interactions. Here we make targeted filomicelles that bear antibodies which recognize distinct endothelial surface molecules. We characterize these antibody targeted filomicelles and prove that (i) they retain structural integrity and dynamic flexibility and (ii) they adhere to endothelium with high specificity both in vitro and in vivo. These results provide the basis for a new drug delivery approach employing antibody-targeted filomicelles that circulate for a prolonged time yet bind to endothelial cells in vascular beds expressing select markers.

Original languageEnglish
Pages (from-to)6991-6999
Number of pages9
JournalACS Nano
Issue number9
StatePublished - Sep 27 2011


  • drug delivery system
  • drug targeting
  • endothelial delivery
  • filomicelle
  • nanoparticle

ASJC Scopus subject areas

  • General Materials Science
  • General Engineering
  • General Physics and Astronomy


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