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Synthesis of broad-specificity activity-based probes for exo-β-mannosidases

Exo-β-mannosidases are a broad class of stereochemically retaining hydrolases that are essential for the breakdown of complex carbohydrate substrates found in all kingdoms of life. Yet the detection of exo-β-mannosidases in complex biological samples remains challenging, necessitating the developmen...

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Autores principales: McGregor, Nicholas G. S., Kuo, Chi-Lin, Beenakker, Thomas J. M., Wong, Chun-Sing, Offen, Wendy A., Armstrong, Zachary, Florea, Bogdan I., Codée, Jeroen D. C., Overkleeft, Herman S., Aerts, Johannes M. F. G., Davies, Gideon J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8790593/
https://www.ncbi.nlm.nih.gov/pubmed/35015006
http://dx.doi.org/10.1039/d1ob02287c
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author McGregor, Nicholas G. S.
Kuo, Chi-Lin
Beenakker, Thomas J. M.
Wong, Chun-Sing
Offen, Wendy A.
Armstrong, Zachary
Florea, Bogdan I.
Codée, Jeroen D. C.
Overkleeft, Herman S.
Aerts, Johannes M. F. G.
Davies, Gideon J.
author_facet McGregor, Nicholas G. S.
Kuo, Chi-Lin
Beenakker, Thomas J. M.
Wong, Chun-Sing
Offen, Wendy A.
Armstrong, Zachary
Florea, Bogdan I.
Codée, Jeroen D. C.
Overkleeft, Herman S.
Aerts, Johannes M. F. G.
Davies, Gideon J.
author_sort McGregor, Nicholas G. S.
collection PubMed
description Exo-β-mannosidases are a broad class of stereochemically retaining hydrolases that are essential for the breakdown of complex carbohydrate substrates found in all kingdoms of life. Yet the detection of exo-β-mannosidases in complex biological samples remains challenging, necessitating the development of new methodologies. Cyclophellitol and its analogues selectively label the catalytic nucleophiles of retaining glycoside hydrolases, making them valuable tool compounds. Furthermore, cyclophellitol can be readily redesigned to enable the incorporation of a detection tag, generating activity-based probes (ABPs) that can be used to detect and identify specific glycosidases in complex biological samples. Towards the development of ABPs for exo-β-mannosidases, we present a concise synthesis of β-manno-configured cyclophellitol, cyclophellitol aziridine, and N-alkyl cyclophellitol aziridines. We show that these probes covalently label exo-β-mannosidases from GH families 2, 5, and 164. Structural studies of the resulting complexes support a canonical mechanism-based mode of action in which the active site nucleophile attacks the pseudoanomeric centre to form a stable ester linkage, mimicking the glycosyl enzyme intermediate. Furthermore, we demonstrate activity-based protein profiling using an N-alkyl aziridine derivative by specifically labelling MANBA in mouse kidney tissue. Together, these results show that synthetic manno-configured cyclophellitol analogues hold promise for detecting exo-β-mannosidases in biological and biomedical research.
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spelling pubmed-87905932022-02-23 Synthesis of broad-specificity activity-based probes for exo-β-mannosidases McGregor, Nicholas G. S. Kuo, Chi-Lin Beenakker, Thomas J. M. Wong, Chun-Sing Offen, Wendy A. Armstrong, Zachary Florea, Bogdan I. Codée, Jeroen D. C. Overkleeft, Herman S. Aerts, Johannes M. F. G. Davies, Gideon J. Org Biomol Chem Chemistry Exo-β-mannosidases are a broad class of stereochemically retaining hydrolases that are essential for the breakdown of complex carbohydrate substrates found in all kingdoms of life. Yet the detection of exo-β-mannosidases in complex biological samples remains challenging, necessitating the development of new methodologies. Cyclophellitol and its analogues selectively label the catalytic nucleophiles of retaining glycoside hydrolases, making them valuable tool compounds. Furthermore, cyclophellitol can be readily redesigned to enable the incorporation of a detection tag, generating activity-based probes (ABPs) that can be used to detect and identify specific glycosidases in complex biological samples. Towards the development of ABPs for exo-β-mannosidases, we present a concise synthesis of β-manno-configured cyclophellitol, cyclophellitol aziridine, and N-alkyl cyclophellitol aziridines. We show that these probes covalently label exo-β-mannosidases from GH families 2, 5, and 164. Structural studies of the resulting complexes support a canonical mechanism-based mode of action in which the active site nucleophile attacks the pseudoanomeric centre to form a stable ester linkage, mimicking the glycosyl enzyme intermediate. Furthermore, we demonstrate activity-based protein profiling using an N-alkyl aziridine derivative by specifically labelling MANBA in mouse kidney tissue. Together, these results show that synthetic manno-configured cyclophellitol analogues hold promise for detecting exo-β-mannosidases in biological and biomedical research. The Royal Society of Chemistry 2021-12-23 /pmc/articles/PMC8790593/ /pubmed/35015006 http://dx.doi.org/10.1039/d1ob02287c Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by/3.0/
spellingShingle Chemistry
McGregor, Nicholas G. S.
Kuo, Chi-Lin
Beenakker, Thomas J. M.
Wong, Chun-Sing
Offen, Wendy A.
Armstrong, Zachary
Florea, Bogdan I.
Codée, Jeroen D. C.
Overkleeft, Herman S.
Aerts, Johannes M. F. G.
Davies, Gideon J.
Synthesis of broad-specificity activity-based probes for exo-β-mannosidases
title Synthesis of broad-specificity activity-based probes for exo-β-mannosidases
title_full Synthesis of broad-specificity activity-based probes for exo-β-mannosidases
title_fullStr Synthesis of broad-specificity activity-based probes for exo-β-mannosidases
title_full_unstemmed Synthesis of broad-specificity activity-based probes for exo-β-mannosidases
title_short Synthesis of broad-specificity activity-based probes for exo-β-mannosidases
title_sort synthesis of broad-specificity activity-based probes for exo-β-mannosidases
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8790593/
https://www.ncbi.nlm.nih.gov/pubmed/35015006
http://dx.doi.org/10.1039/d1ob02287c
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