A Selection of Macrocyclic Peptides That Bind STING From an mRNA‐Display Library With Split Degenerate Codons

Recent improvements in mRNA display have enabled the selection of peptides that incorporate non‐natural amino acids, thus expanding the chemical diversity of macrocycles beyond what is accessible in nature. Such libraries have incorporated non‐natural amino acids at the expense of natural amino acid...

Descripción completa

Detalles Bibliográficos
Autores principales: Lin, Chi‐Wang, Harner, Mary J., Douglas, Andrew E., Lafont, Virginie, Yu, Fei, Lee, Ving G., Poss, Michael A., Swain, Joanna F., Wright, Martin, Lipovšek, Daša
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2021
Materias:
Communications
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8518765/
https://www.ncbi.nlm.nih.gov/pubmed/34383389
http://dx.doi.org/10.1002/anie.202103043
_version_ 1784584300688048128
author Lin, Chi‐Wang
Harner, Mary J.
Douglas, Andrew E.
Lafont, Virginie
Yu, Fei
Lee, Ving G.
Poss, Michael A.
Swain, Joanna F.
Wright, Martin
Lipovšek, Daša
author_facet Lin, Chi‐Wang
Harner, Mary J.
Douglas, Andrew E.
Lafont, Virginie
Yu, Fei
Lee, Ving G.
Poss, Michael A.
Swain, Joanna F.
Wright, Martin
Lipovšek, Daša
author_sort Lin, Chi‐Wang
collection PubMed
description Recent improvements in mRNA display have enabled the selection of peptides that incorporate non‐natural amino acids, thus expanding the chemical diversity of macrocycles beyond what is accessible in nature. Such libraries have incorporated non‐natural amino acids at the expense of natural amino acids by reassigning their codons. Here we report an alternative approach to expanded amino‐acid diversity that preserves all 19 natural amino acids (no methionine) and adds 6 non‐natural amino acids, resulting in the highest sequence complexity reported to date. We have applied mRNA display to this 25‐letter library to select functional macrocycles that bind human STING, a protein involved in immunoregulation. The resulting STING‐binding peptides include a 9‐mer macrocycle with a dissociation constant (K (D)) of 3.4 nM, which blocks binding of cGAMP to STING and induces STING dimerization. This approach is generalizable to expanding the amino‐acid alphabet in a library beyond 25 building blocks.
format Online
Article
Text
id pubmed-8518765
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher John Wiley and Sons Inc.
record_format MEDLINE/PubMed
spelling pubmed-85187652021-10-21 A Selection of Macrocyclic Peptides That Bind STING From an mRNA‐Display Library With Split Degenerate Codons Lin, Chi‐Wang Harner, Mary J. Douglas, Andrew E. Lafont, Virginie Yu, Fei Lee, Ving G. Poss, Michael A. Swain, Joanna F. Wright, Martin Lipovšek, Daša Angew Chem Int Ed Engl Communications Recent improvements in mRNA display have enabled the selection of peptides that incorporate non‐natural amino acids, thus expanding the chemical diversity of macrocycles beyond what is accessible in nature. Such libraries have incorporated non‐natural amino acids at the expense of natural amino acids by reassigning their codons. Here we report an alternative approach to expanded amino‐acid diversity that preserves all 19 natural amino acids (no methionine) and adds 6 non‐natural amino acids, resulting in the highest sequence complexity reported to date. We have applied mRNA display to this 25‐letter library to select functional macrocycles that bind human STING, a protein involved in immunoregulation. The resulting STING‐binding peptides include a 9‐mer macrocycle with a dissociation constant (K (D)) of 3.4 nM, which blocks binding of cGAMP to STING and induces STING dimerization. This approach is generalizable to expanding the amino‐acid alphabet in a library beyond 25 building blocks. John Wiley and Sons Inc. 2021-09-06 2021-10-11 /pmc/articles/PMC8518765/ /pubmed/34383389 http://dx.doi.org/10.1002/anie.202103043 Text en © 2021 The Authors. Published by Wiley-VCH GmbH https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc-nd/4.0/ (https://creativecommons.org/licenses/by-nc-nd/4.0/) License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non‐commercial and no modifications or adaptations are made.
spellingShingle Communications
Lin, Chi‐Wang
Harner, Mary J.
Douglas, Andrew E.
Lafont, Virginie
Yu, Fei
Lee, Ving G.
Poss, Michael A.
Swain, Joanna F.
Wright, Martin
Lipovšek, Daša
A Selection of Macrocyclic Peptides That Bind STING From an mRNA‐Display Library With Split Degenerate Codons
title A Selection of Macrocyclic Peptides That Bind STING From an mRNA‐Display Library With Split Degenerate Codons
title_full A Selection of Macrocyclic Peptides That Bind STING From an mRNA‐Display Library With Split Degenerate Codons
title_fullStr A Selection of Macrocyclic Peptides That Bind STING From an mRNA‐Display Library With Split Degenerate Codons
title_full_unstemmed A Selection of Macrocyclic Peptides That Bind STING From an mRNA‐Display Library With Split Degenerate Codons
title_short A Selection of Macrocyclic Peptides That Bind STING From an mRNA‐Display Library With Split Degenerate Codons
title_sort selection of macrocyclic peptides that bind sting from an mrna‐display library with split degenerate codons
topic Communications
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8518765/
https://www.ncbi.nlm.nih.gov/pubmed/34383389
http://dx.doi.org/10.1002/anie.202103043
work_keys_str_mv AT linchiwang aselectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT harnermaryj aselectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT douglasandrewe aselectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT lafontvirginie aselectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT yufei aselectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT leevingg aselectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT possmichaela aselectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT swainjoannaf aselectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT wrightmartin aselectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT lipovsekdasa aselectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT linchiwang selectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT harnermaryj selectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT douglasandrewe selectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT lafontvirginie selectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT yufei selectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT leevingg selectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT possmichaela selectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT swainjoannaf selectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT wrightmartin selectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons
AT lipovsekdasa selectionofmacrocyclicpeptidesthatbindstingfromanmrnadisplaylibrarywithsplitdegeneratecodons

Ejemplares similares