Role of N-terminal His6-Tags in binding and efficient translocation of polypeptides into cells using anthrax protective antigen (PA).

It is of interest to define bacterial toxin biochemical properties to use them as molecular-syringe devices in order to deliver enzymatic activities into host cells. Binary toxins of the AB(7/8)-type are among the most potent and specialized bacterial protein toxins. The B subunits oligomerize to form a pore that binds with high affinity host cell receptors and the enzymatic A subunit. This allows the endocytosis of the complex and subsequent injection of the A subunit into the cytosol of the host cells. Here we report that the addition of an N-terminal His(6)-tag to different proteins increased their binding affinity to the protective antigen (PA) PA(63)-channels, irrespective if they are related (C2I) or unrelated (gpJ, EDIN) to the AB(7/8)-family of toxins. His(6)-EDIN exhibited voltage-dependent increase of the stability constant for binding by a factor of about 25 when the trans-side corresponding to the cell interior was set to -70 mV. Surprisingly, the C. botulinum toxin C2II-channel did not share this feature of PA(63). Cell-based experiments demonstrated that addition of an N-terminal His(6)-tag promoted also intoxication of endothelial cells by C2I or EDIN via PA(63). Our results revealed that addition of His(6)-tags to several factors increase their binding properties to PA(63) and enhance the property to intoxicate cells.

Citation

Christoph Beitzinger, Caroline Stefani, Angelika Kronhardt, Monica Rolando, Gilles Flatau, Emmanuel Lemichez, Roland Benz. Role of N-terminal His6-Tags in binding and efficient translocation of polypeptides into cells using anthrax protective antigen (PA). PloS one. 2012;7(10):e46964

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PMID: 23056543

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