Joerg Fahrer scite author profile

Versatile nanocarrier systems facilitating uptake of exogenous proteins are highly alluring in evaluating these proteins for therapeutic applications. The self-assembly of an efficient nano-sized protein transporter consisting of three different entities is presented: A streptavidin protein core functioning as an adapter, second generation polyamidoamine dendrons for facilitating cell uptake as well as two different therapeutic proteins (tumor suppressor p53 or pro-apoptotic cytochrome c as cargo). Well-defined dendrons containing a biotin core are prepared and display no cytotoxic behavior upon conjugation to streptavidin. The integration of biotinylated human recombinant p53 (B-p53) into the three component system allows excellent internalization into HeLa, A549 and SaOS osteosarcoma cells monitored via confocal microscopy, immunoblot analysis and co-localization studies. In addition, the conjugation of B-p53 to dendronized streptavidin preserves its specific DNA-binding in vitro, and its delivery into SaOS cells impairs cell viability with concomitant activation of caspases 3 and 7. The versatility of this system is further exhibited by the significant enhancement of the pro-apoptotic effects of internalized cytochrome c which is analyzed by flow cytometry and cell viability assays. These results demonstrate that the "bio-click" self-assembly of biotinylated dendrons and proteins on a streptavidin adapter yields a stable supramolecular complex. This efficient bionanotransporter provides an attractive platform for mediating the delivery of functional proteins of interest into living mammalian cells in a facile and rapid way.

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A Cell-Permeable Fusion Protein Based on Clostridium botulinum C2 Toxin for Delivery of p53 Tumorsuppressor into Cancer Cells

Fahrer

Rausch

Barth

2013

PLoS ONE

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Genetically engineered bacterial protein toxins are attractive systems for delivery of exogenous proteins into the cytosol of mammalian cells. The binary C2 toxin from C. botulinum has emerged as powerful delivery vehicle, which rests on its binding/translocation component C2IIa and the genetically modified adaptor domain C2IN that act in concert to trigger cell uptake. The p53 tumor suppressor protein has a crucial function in suppressing carcinogenesis and is frequently inactivated by diverse mechanisms in human tumor cells. Therefore, we constructed a C2IN-p53 fusion protein, which is internalized into cancer cells by C2IIa. To this end, the C2IN-p53 fusion construct was overexpressed in E. coli with good solubility, purified by heparin affinity chromatography and protein identity was confirmed by immunoblotting. We demonstrated that the fusion protein is capable of binding to the p53 consensus-DNA with high affinity in a p53-specific manner in vitro. Next, the internalization of C2IN-p53 was monitored in HeLa cells by cell fractionation and immunoblot analysis, which revealed a C2IIa-mediated translocation of the fusion protein into the cytosol. The uptake was also shown in A549 and Saos-2 cells with similar efficiency. These findings were further corroborated by confocal immunofluorescence analyses of C2IN-p53/C2IIa-treated HeLa and A549 cells, displaying predominantly cytoplasmic localization of the fusion construct.

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Internalization of biotinylated compounds into cancer cells is promoted by a molecular Trojan horse based upon core streptavidin and clostridial C2 toxin

Fahrer

Funk

Lillich

et al. 2010

Naunyn-Schmied Arch Pharmacol

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The C2 toxin produced by Clostridium botulinum is a binary AB-type exotoxin composed of the enzyme subunit C2I and the binding/translocation moiety C2II. After proteolytic activation, C2IIa mediates the subsequent internalization of C2I into the cytosol of mammalian target cells. The N-terminal domain of C2I (C2IN) is necessary for C2IIa-dependent uptake, but lacks the enzyme domain that is responsible for cytotoxicity. In the present study, we generated a delivery system building on C2IN and a truncated core streptavidin (Stv13) with enhanced solubility for the C2IIa-dependent internalization of biotinylated cargo molecules into mammalian cells. C2IN-Stv13 fusion protein expressed in Escherichia coli was obtained in high yields and purity. The affinity-purified protein formed tetramers and a defined higher order species in solution as shown by gel filtration and retained its biotin-binding properties, however with an obvious reduction in affinity. Uptake of C2IN-Stv13 into the cytosol of HeLa and other cancer cell lines was observed by immunoblot analysis, which was corroborated by confocal microscopy. In addition, the fusion protein was not cytotoxic and did not inhibit cell proliferation as determined by MTS assay. Finally, we demonstrated the C2IN-Stv13/C2IIa-mediated uptake of biocytin-Alexa 488 as cargo into HeLa cells, underscoring the functionality of the generated transport system.

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Genetically engineered Clostridium botulinum C2 toxin as a molecular trojan horse to deliver biomolecules into mammalian cells

et al. 2009

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Joerg Fahrer

Efficient Delivery of p53 and Cytochrome C by Supramolecular Assembly of a Dendritic Multi‐Domain Delivery System

A Cell-Permeable Fusion Protein Based on Clostridium botulinum C2 Toxin for Delivery of p53 Tumorsuppressor into Cancer Cells

Internalization of biotinylated compounds into cancer cells is promoted by a molecular Trojan horse based upon core streptavidin and clostridial C2 toxin

Genetically engineered Clostridium botulinum C2 toxin as a molecular trojan horse to deliver biomolecules into mammalian cells

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