Immunoisolation of nanoparticles containing endocytic vesicles for drug quantitation
A Nowacek, I Kadiu, JE McMillan… - Cellular and Subcellular …, 2013 - Springer
A Nowacek, I Kadiu, JE McMillan, HE Gendelman
Cellular and Subcellular Nanotechnology: Methods and Protocols, 2013•SpringerCell-mediated nanoparticle delivery has recently emerged as an efficacious method of
delivering therapeutic agents across physiological barriers. Use of cells as nanodelivery
vehicles requires accurate assessment of their loading capacity and identification of
intracellular compartments where nanoparticles are sequestered. This is of great interest
since specific endocytic trafficking routes can ultimately influence the mode of nanoparticle
release and their efficacy and function. Here, we describe a technique that allows for the …
delivering therapeutic agents across physiological barriers. Use of cells as nanodelivery
vehicles requires accurate assessment of their loading capacity and identification of
intracellular compartments where nanoparticles are sequestered. This is of great interest
since specific endocytic trafficking routes can ultimately influence the mode of nanoparticle
release and their efficacy and function. Here, we describe a technique that allows for the …
Abstract
Cell-mediated nanoparticle delivery has recently emerged as an efficacious method of delivering therapeutic agents across physiological barriers. Use of cells as nanodelivery vehicles requires accurate assessment of their loading capacity and identification of intracellular compartments where nanoparticles are sequestered. This is of great interest since specific endocytic trafficking routes can ultimately influence the mode of nanoparticle release and their efficacy and function. Here, we describe a technique that allows for the isolation of individual populations of nanoparticle-containing endosomes for subsequent quantitative analysis and more accurate description of where nanoparticles are stored on a subcellular level.
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