A platform for discovery of functional cell-penetrating peptides for efficient multi-cargo intracellular delivery

Cell penetrating peptides (CPPs) offer great potential to deliver therapeutic molecules to previously inaccessible intracellular targets. However, many CPPs are inefficient and often leave their attached cargo stranded in the cell’s endosome. We report a versatile platform for the isolation of pepti...

Descripción completa

Detalles Bibliográficos
Autores principales: Hoffmann, Katrin, Milech, Nadia, Juraja, Suzy M., Cunningham, Paula T., Stone, Shane R., Francis, Richard W., Anastasas, Mark, Hall, Clinton M., Heinrich, Tatjana, Bogdawa, Heique M., Winslow, Scott, Scobie, Marie N., Dewhurst, Robert E., Florez, Laura, Ong, Ferrer, Kerfoot, Maria, Champain, Danie, Adams, Abbie M., Fletcher, Susan, Viola, Helena M., Hool, Livia C., Connor, Theresa, Longville, Brooke A. C., Tan, Yew-Foon, Kroeger, Karen, Morath, Volker, Weiss, Gregory A., Skerra, Arne, Hopkins, Richard M., Watt, Paul M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2018
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6105642/
https://www.ncbi.nlm.nih.gov/pubmed/30135446
http://dx.doi.org/10.1038/s41598-018-30790-2
_version_ 1783349666692202496
author Hoffmann, Katrin
Milech, Nadia
Juraja, Suzy M.
Cunningham, Paula T.
Stone, Shane R.
Francis, Richard W.
Anastasas, Mark
Hall, Clinton M.
Heinrich, Tatjana
Bogdawa, Heique M.
Winslow, Scott
Scobie, Marie N.
Dewhurst, Robert E.
Florez, Laura
Ong, Ferrer
Kerfoot, Maria
Champain, Danie
Adams, Abbie M.
Fletcher, Susan
Viola, Helena M.
Hool, Livia C.
Connor, Theresa
Longville, Brooke A. C.
Tan, Yew-Foon
Kroeger, Karen
Morath, Volker
Weiss, Gregory A.
Skerra, Arne
Hopkins, Richard M.
Watt, Paul M.
author_facet Hoffmann, Katrin
Milech, Nadia
Juraja, Suzy M.
Cunningham, Paula T.
Stone, Shane R.
Francis, Richard W.
Anastasas, Mark
Hall, Clinton M.
Heinrich, Tatjana
Bogdawa, Heique M.
Winslow, Scott
Scobie, Marie N.
Dewhurst, Robert E.
Florez, Laura
Ong, Ferrer
Kerfoot, Maria
Champain, Danie
Adams, Abbie M.
Fletcher, Susan
Viola, Helena M.
Hool, Livia C.
Connor, Theresa
Longville, Brooke A. C.
Tan, Yew-Foon
Kroeger, Karen
Morath, Volker
Weiss, Gregory A.
Skerra, Arne
Hopkins, Richard M.
Watt, Paul M.
author_sort Hoffmann, Katrin
collection PubMed
description Cell penetrating peptides (CPPs) offer great potential to deliver therapeutic molecules to previously inaccessible intracellular targets. However, many CPPs are inefficient and often leave their attached cargo stranded in the cell’s endosome. We report a versatile platform for the isolation of peptides delivering a wide range of cargos into the cytoplasm of cells. We used this screening platform to identify multiple “Phylomer” CPPs, derived from bacterial and viral genomes. These peptides are amenable to conventional sequence optimization and engineering approaches for cell targeting and half-life extension. We demonstrate potent, functional delivery of protein, peptide, and nucleic acid analog cargos into cells using Phylomer CPPs. We validate in vivo activity in the cytoplasm, through successful transport of an oligonucleotide therapeutic fused to a Phylomer CPP in a disease model for Duchenne’s muscular dystrophy. This report thus establishes a discovery platform for identifying novel, functional CPPs to expand the delivery landscape of druggable intracellular targets for biological therapeutics.
format Online
Article
Text
id pubmed-6105642
institution National Center for Biotechnology Information
language English
publishDate 2018
publisher Nature Publishing Group UK
record_format MEDLINE/PubMed
spelling pubmed-61056422018-08-27 A platform for discovery of functional cell-penetrating peptides for efficient multi-cargo intracellular delivery Hoffmann, Katrin Milech, Nadia Juraja, Suzy M. Cunningham, Paula T. Stone, Shane R. Francis, Richard W. Anastasas, Mark Hall, Clinton M. Heinrich, Tatjana Bogdawa, Heique M. Winslow, Scott Scobie, Marie N. Dewhurst, Robert E. Florez, Laura Ong, Ferrer Kerfoot, Maria Champain, Danie Adams, Abbie M. Fletcher, Susan Viola, Helena M. Hool, Livia C. Connor, Theresa Longville, Brooke A. C. Tan, Yew-Foon Kroeger, Karen Morath, Volker Weiss, Gregory A. Skerra, Arne Hopkins, Richard M. Watt, Paul M. Sci Rep Article Cell penetrating peptides (CPPs) offer great potential to deliver therapeutic molecules to previously inaccessible intracellular targets. However, many CPPs are inefficient and often leave their attached cargo stranded in the cell’s endosome. We report a versatile platform for the isolation of peptides delivering a wide range of cargos into the cytoplasm of cells. We used this screening platform to identify multiple “Phylomer” CPPs, derived from bacterial and viral genomes. These peptides are amenable to conventional sequence optimization and engineering approaches for cell targeting and half-life extension. We demonstrate potent, functional delivery of protein, peptide, and nucleic acid analog cargos into cells using Phylomer CPPs. We validate in vivo activity in the cytoplasm, through successful transport of an oligonucleotide therapeutic fused to a Phylomer CPP in a disease model for Duchenne’s muscular dystrophy. This report thus establishes a discovery platform for identifying novel, functional CPPs to expand the delivery landscape of druggable intracellular targets for biological therapeutics. Nature Publishing Group UK 2018-08-22 /pmc/articles/PMC6105642/ /pubmed/30135446 http://dx.doi.org/10.1038/s41598-018-30790-2 Text en © The Author(s) 2018 Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle Article
Hoffmann, Katrin
Milech, Nadia
Juraja, Suzy M.
Cunningham, Paula T.
Stone, Shane R.
Francis, Richard W.
Anastasas, Mark
Hall, Clinton M.
Heinrich, Tatjana
Bogdawa, Heique M.
Winslow, Scott
Scobie, Marie N.
Dewhurst, Robert E.
Florez, Laura
Ong, Ferrer
Kerfoot, Maria
Champain, Danie
Adams, Abbie M.
Fletcher, Susan
Viola, Helena M.
Hool, Livia C.
Connor, Theresa
Longville, Brooke A. C.
Tan, Yew-Foon
Kroeger, Karen
Morath, Volker
Weiss, Gregory A.
Skerra, Arne
Hopkins, Richard M.
Watt, Paul M.
A platform for discovery of functional cell-penetrating peptides for efficient multi-cargo intracellular delivery
title A platform for discovery of functional cell-penetrating peptides for efficient multi-cargo intracellular delivery
title_full A platform for discovery of functional cell-penetrating peptides for efficient multi-cargo intracellular delivery
title_fullStr A platform for discovery of functional cell-penetrating peptides for efficient multi-cargo intracellular delivery
title_full_unstemmed A platform for discovery of functional cell-penetrating peptides for efficient multi-cargo intracellular delivery
title_short A platform for discovery of functional cell-penetrating peptides for efficient multi-cargo intracellular delivery
title_sort platform for discovery of functional cell-penetrating peptides for efficient multi-cargo intracellular delivery
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6105642/
https://www.ncbi.nlm.nih.gov/pubmed/30135446
http://dx.doi.org/10.1038/s41598-018-30790-2
work_keys_str_mv AT hoffmannkatrin aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT milechnadia aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT jurajasuzym aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT cunninghampaulat aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT stoneshaner aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT francisrichardw aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT anastasasmark aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT hallclintonm aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT heinrichtatjana aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT bogdawaheiquem aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT winslowscott aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT scobiemarien aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT dewhurstroberte aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT florezlaura aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT ongferrer aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT kerfootmaria aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT champaindanie aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT adamsabbiem aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT fletchersusan aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT violahelenam aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT hoolliviac aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT connortheresa aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT longvillebrookeac aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT tanyewfoon aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT kroegerkaren aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT morathvolker aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT weissgregorya aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT skerraarne aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT hopkinsrichardm aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT wattpaulm aplatformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT hoffmannkatrin platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT milechnadia platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT jurajasuzym platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT cunninghampaulat platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT stoneshaner platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT francisrichardw platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT anastasasmark platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT hallclintonm platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT heinrichtatjana platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT bogdawaheiquem platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT winslowscott platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT scobiemarien platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT dewhurstroberte platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT florezlaura platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT ongferrer platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT kerfootmaria platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT champaindanie platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT adamsabbiem platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT fletchersusan platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT violahelenam platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT hoolliviac platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT connortheresa platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT longvillebrookeac platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT tanyewfoon platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT kroegerkaren platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT morathvolker platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT weissgregorya platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT skerraarne platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT hopkinsrichardm platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery
AT wattpaulm platformfordiscoveryoffunctionalcellpenetratingpeptidesforefficientmulticargointracellulardelivery

Ejemplares similares