Vault nanoparticles engineered with the protein transduction domain, TAT48, enhances cellular uptake.

Jian Yang, Aswin Srinivasan, Yang Sun, Jan Mrazek, Zhanyong Shu, Valerie A Kickhoefer, Leonard H Rome

Integrative biology : quantitative biosciences from nano to macro 2013 Jan

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Vaults are naturally-occurring ribonucleoprotein particles found in nearly all eukaryotic cells. They were named for their morphological resemblance to the vaulted ceilings of gothic cathedrals. These ubiquitous nanoparticles are quite abundant with 10(4)-10(6) copies found in the cytoplasm depending on cell type. The structural shell of the particle can self-assemble from 78 copies of a single protein, the major vault protein. This finding has allowed vaults to be bioengineered, resulting in a variety of new functions and capabilities directed toward overcoming many limitations posed by current gene and drug delivery systems. In this study, we demonstrate that recombinant vaults, with the addition of a cell penetration peptide, TAT, can be rapidly delivered to cells in vitro with significantly elevated binding and uptake efficiency. This TAT-vault nanoparticle could be a valuable tool for improving the retention and penetration of therapeutic drugs at tumor sites.

Citation

Jian Yang, Aswin Srinivasan, Yang Sun, Jan Mrazek, Zhanyong Shu, Valerie A Kickhoefer, Leonard H Rome. Vault nanoparticles engineered with the protein transduction domain, TAT48, enhances cellular uptake. Integrative biology : quantitative biosciences from nano to macro. 2013 Jan;5(1):151-8