Engineered Exosomes as Vehicles for Biologically Active Proteins

U Sterzenbach; U Putz; LH Low; J Silke; SS Tan; J Howitt

Journal article

Engineered Exosomes as Vehicles for Biologically Active Proteins

U Sterzenbach, U Putz, LH Low, J Silke, SS Tan, J Howitt

Molecular Therapy | CELL PRESS | Published : 2017

DOI: 10.1016/j.ymthe.2017.03.030

Open access

Abstract

Exosomes represent an attractive vehicle for the delivery of biomolecules. However, mechanisms for loading functional molecules into exosomes are relatively unexplored. Here we report the use of the evolutionarily conserved late-domain (L-domain) pathway as a mechanism for loading exogenous proteins into exosomes. We demonstrate that labeling of a target protein, Cre recombinase, with a WW tag leads to recognition by the L-domain-containing protein Ndfip1, resulting in ubiquitination and loading into exosomes. Our results show that Ndfip1 expression acts as a molecular switch for exosomal packaging of WW-Cre that can be suppressed using the exosome inhibitor GW4869. When taken up by floxed r..

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University of Melbourne Researchers

John Silke Author

Seong Tan Author

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Grants

Awarded by State Government of Victoria

Funding Acknowledgements

This work was supported by the Australia National Health and Medical Research Council through project grants (1066925 and 1066895) and the Victorian Government through the Operational Infrastructure Scheme.