Design and Optimisation of Bioactive Cyclic Peptides: Generation of a Down-Regulator of TNF Secretion

Design and Optimisation of Bioactive Cyclic Peptides: Generation of a Down-Regulator of TNF Secretion

Although strong binding interactions between protein receptor and ligand do not require the participation of a large number of amino acids in either site, short peptide chains are generally poor at recreating the types of protein-protein interactions which take place during cell recognition and sign...

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Main Authors: Roger New, Gurpal S. Bansal, Malgorzata Dryjska, Michal Bogus, Patricia Green, Marc Feldmann, Fionula Brennan
Format: Article
Language:English
Published: MDPI AG 2014-12-01
Series:Molecules
Subjects:
cyclic peptide
TNF
interleukin 6
rheumatoid arthritis
lipo amino acid
Online Access:http://www.mdpi.com/1420-3049/19/12/21529
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spelling doaj-b4b3376a87d14731b27e6166cdc5dcee2020-11-25T01:04:28ZengMDPI AGMolecules1420-30492014-12-011912215292154010.3390/molecules191221529molecules191221529Design and Optimisation of Bioactive Cyclic Peptides: Generation of a Down-Regulator of TNF SecretionRoger New0Gurpal S. Bansal1Malgorzata Dryjska2Michal Bogus3Patricia Green4Marc Feldmann5Fionula Brennan6Proxima Concepts Limited, c/o London Bioscience Innovation Centre, 2 Royal College Street, London NW1 0NH, UKProxima Concepts Limited, c/o London Bioscience Innovation Centre, 2 Royal College Street, London NW1 0NH, UKProxima Concepts Limited, c/o London Bioscience Innovation Centre, 2 Royal College Street, London NW1 0NH, UKProxima Concepts Limited, c/o London Bioscience Innovation Centre, 2 Royal College Street, London NW1 0NH, UKKennedy Institute of Rheumatology, Roosevelt Drive, University of Oxford, Headington OX3 7FY, UKKennedy Institute of Rheumatology, Roosevelt Drive, University of Oxford, Headington OX3 7FY, UKKennedy Institute of Rheumatology, Roosevelt Drive, University of Oxford, Headington OX3 7FY, UKAlthough strong binding interactions between protein receptor and ligand do not require the participation of a large number of amino acids in either site, short peptide chains are generally poor at recreating the types of protein-protein interactions which take place during cell recognition and signalling process, probably because their flexible backbones prevent the side chains from forming sufficiently rigid and stable epitopes, which can take part in binding with the desired strength and specificity. In a recently-reported study, it was shown that a proto-epitope containing F, R and S amino acids has the ability to down-regulate TNF secretion by macrophages. This paper extends these findings, putting those amino acids into a short cyclic peptide scaffold, and determining the optimal configuration required to overcome the problems of conformational instability, and give rise to molecules which have potential as therapeutic agents in human disease, such as rheumatoid arthritis.http://www.mdpi.com/1420-3049/19/12/21529cyclic peptideTNFinterleukin 6rheumatoid arthritislipo amino acid
collection DOAJ
language English
format Article
sources DOAJ
author Roger New
Gurpal S. Bansal
Malgorzata Dryjska
Michal Bogus
Patricia Green
Marc Feldmann
Fionula Brennan
spellingShingle Roger New
Gurpal S. Bansal
Malgorzata Dryjska
Michal Bogus
Patricia Green
Marc Feldmann
Fionula Brennan
Design and Optimisation of Bioactive Cyclic Peptides: Generation of a Down-Regulator of TNF Secretion
Molecules
cyclic peptide
TNF
interleukin 6
rheumatoid arthritis
lipo amino acid
author_facet Roger New
Gurpal S. Bansal
Malgorzata Dryjska
Michal Bogus
Patricia Green
Marc Feldmann
Fionula Brennan
author_sort Roger New
title Design and Optimisation of Bioactive Cyclic Peptides: Generation of a Down-Regulator of TNF Secretion
title_short Design and Optimisation of Bioactive Cyclic Peptides: Generation of a Down-Regulator of TNF Secretion
title_full Design and Optimisation of Bioactive Cyclic Peptides: Generation of a Down-Regulator of TNF Secretion
title_fullStr Design and Optimisation of Bioactive Cyclic Peptides: Generation of a Down-Regulator of TNF Secretion
title_full_unstemmed Design and Optimisation of Bioactive Cyclic Peptides: Generation of a Down-Regulator of TNF Secretion
title_sort design and optimisation of bioactive cyclic peptides: generation of a down-regulator of tnf secretion
publisher MDPI AG
series Molecules
issn 1420-3049
publishDate 2014-12-01
description Although strong binding interactions between protein receptor and ligand do not require the participation of a large number of amino acids in either site, short peptide chains are generally poor at recreating the types of protein-protein interactions which take place during cell recognition and signalling process, probably because their flexible backbones prevent the side chains from forming sufficiently rigid and stable epitopes, which can take part in binding with the desired strength and specificity. In a recently-reported study, it was shown that a proto-epitope containing F, R and S amino acids has the ability to down-regulate TNF secretion by macrophages. This paper extends these findings, putting those amino acids into a short cyclic peptide scaffold, and determining the optimal configuration required to overcome the problems of conformational instability, and give rise to molecules which have potential as therapeutic agents in human disease, such as rheumatoid arthritis.
topic cyclic peptide
TNF
interleukin 6
rheumatoid arthritis
lipo amino acid
url http://www.mdpi.com/1420-3049/19/12/21529
work_keys_str_mv AT rogernew designandoptimisationofbioactivecyclicpeptidesgenerationofadownregulatoroftnfsecretion
AT gurpalsbansal designandoptimisationofbioactivecyclicpeptidesgenerationofadownregulatoroftnfsecretion
AT malgorzatadryjska designandoptimisationofbioactivecyclicpeptidesgenerationofadownregulatoroftnfsecretion
AT michalbogus designandoptimisationofbioactivecyclicpeptidesgenerationofadownregulatoroftnfsecretion
AT patriciagreen designandoptimisationofbioactivecyclicpeptidesgenerationofadownregulatoroftnfsecretion
AT marcfeldmann designandoptimisationofbioactivecyclicpeptidesgenerationofadownregulatoroftnfsecretion
AT fionulabrennan designandoptimisationofbioactivecyclicpeptidesgenerationofadownregulatoroftnfsecretion
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