Cell‐Penetrating Peptide‐Bismuth Bicycles**

Author:

Voss Saan12ORCID,Adair Liam D.34ORCID,Achazi Katharina5ORCID,Kim Heeyoung67,Bergemann Silke2,Bartenschlager Ralf67ORCID,New Elizabeth J.34ORCID,Rademann Jörg2ORCID,Nitsche Christoph1ORCID

Affiliation:

1. Research School of Chemistry Australian National University Canberra ACT 2601 Australia

2. Department of Biology, Chemistry and Pharmacy, Institute of Pharmacy, Medicinal Chemistry Freie Universität Berlin Königin-Luise-Str. 2+4 14195 Berlin Germany

3. School of Chemistry The University of Sydney Sydney NSW 2006 Australia

4. Australian Research Council Centre of Excellence for Innovations in Peptide and Protein Science The University of Sydney Sydney NSW 2006 Australia

5. Institut für Chemie und Biochemie Freie Universität Berlin Altensteinstraße 23a 14195 Berlin Germany

6. Heidelberg University Medical Faculty Heidelberg, Department of Infectious Diseases, Molecular Virology, Center for Integrative Infectious Diseases Research (CIID) 69120 Heidelberg Germany

7. German Center for Infection Research Heidelberg partner site 69120 Heidelberg Germany

Abstract

AbstractCell‐penetrating peptides (CPPs) play a significant role in the delivery of cargos into human cells. We report the first CPPs based on peptide‐bismuth bicycles, which can be readily obtained from commercially available peptide precursors, making them accessible for a wide range of applications. These CPPs enter human cells as demonstrated by live‐cell confocal microscopy using fluorescently labelled peptides. We report efficient sequences that demonstrate increased cellular uptake compared to conventional CPPs like the TAT peptide (derived from the transactivating transcriptional activator of human immunodeficiency virus 1) or octaarginine (R8), despite requiring only three positive charges. Bicyclization triggered by the presence of bismuth(III) increases cellular uptake by more than one order of magnitude. Through the analysis of cell lysates using inductive coupled plasma mass spectrometry (ICP‐MS), we have introduced an alternative approach to examine the cellular uptake of CPPs. This has allowed us to confirm the presence of bismuth in cells after exposure to our CPPs. Mechanistic studies indicated an energy‐dependent endocytic cellular uptake sensitive to inhibition by rottlerin, most likely involving macropinocytosis.

Funder

Australian Research Council

Deutsche Forschungsgemeinschaft

Publisher

Wiley

Subject

General Medicine

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