Artificial Protein Cage Delivers Active Protein Cargos to the Cell Interior | Zendy

Antoniskalska | Zendy; Kinga Borzęcka-Solarz | Zendy; Jan Różycki | Zendy; Izabela Stupka | Zendy; M. Bochenek | Zendy; Elżbieta Pyza | Zendy; Jonathan G. Heddle | Zendy

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Artificial Protein Cage Delivers Active Protein Cargos to the Cell Interior

Author(s) -

Antoniskalska,

Kinga Borzęcka-Solarz,

Jan Różycki,

Izabela Stupka,

M. Bochenek,

Elżbieta Pyza,

Jonathan G. Heddle

Publication year - 2021

Publication title -

biomacromolecules

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.689

H-Index - 220

eISSN - 1526-4602

pISSN - 1525-7797

DOI - 10.1021/acs.biomac.1c00630

Subject(s) - cage , artificial cell , peptide , chemistry , trap (plumbing) , biophysics , macromolecule , nanotechnology , microbiology and biotechnology , materials science , biology , biochemistry , physics , membrane , meteorology , mathematics , combinatorics

Artificial protein cages have potential as programmable, protective carriers of fragile macromolecules to cells. While natural cages and VLPs have been extensively exploited, the use of artificial cages to deliver active proteins to cells has not yet been shown. TRAP-cage is an artificial protein cage with an unusual geometry and extremely high stability, which can be triggered to break apart in the presence of cellular reducing agents. Here, we demonstrate that TRAP-cage can be filled with a protein cargo and decorated with a cell-penetrating peptide, allowing it to enter cells. Tracking of both the TRAP-cage and the cargo shows that the protein of interest can be successfully delivered intracellularly in the active form. These results provide a valuable proof of concept for the further development of TRAP-cage as a delivery platform.

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