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Nanoparticles Disguised As Red Blood Cells to Evade the Immune System

Overview
Journal Expert Opin Biol Ther
Specialties Biology
Pharmacology
Date 2012 Feb 16
PMID 22332936
Citations 60
Authors
Ronnie Hongbo Fang
Che-Ming Jack Hu
Liangfang Zhang
Affiliations
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Abstract

The development of nanoparticle platforms with long in vivo circulation half-life has long been one of the major goals in the field of cancer drug delivery. Long-circulating nanoparticles can more effectively localize to the tumor site through either passive or active targeting mechanisms. The current gold standard for bestowing long-circulating attributes involves the use of PEG, which surrounds the particles with a hydration layer and thereby prevents recognition by the mononuclear phagocyte system. Recently, a new strategy for synthesizing biomimetic nanoparticles has been inspired by the body's own long-circulating entities, red blood cells (RBCs). Such a system disguises drug nanocarriers as 'self' using membrane materials directly derived from RBCs. This method has been demonstrated to prolong particle systemic circulation half-life beyond that of the corresponding PEGylated systems. The RBC membrane-coated nanoparticles present a major breakthrough in drug delivery technology and show great promise for clinical applications. Herein we highlight the significance and the unique features of this nature-inspired nanoparticle platform and offer opinions on its future prospects.

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