Synthesis of Uronic Acid 1-Azasugars as Putative Inhibitors of α-Iduronidase, β-Glucuronidase and Heparanase**

Gareth G. Doherty; Geraldine Jia Ming Ler; Norbert Wimmer; Paul V. Bernhardt; Roger A. Ashmus; David J. Vocadlo; Zachary Armstrong; Gideon J. Davies; Marco Maccarana; Jin ping Li; Yasmin Kayal; Vito Ferro

doi:10.1002/cbic.202200619

Synthesis of Uronic Acid 1-Azasugars as Putative Inhibitors of α-Iduronidase, β-Glucuronidase and Heparanase**

Gareth G. Doherty, Geraldine Jia Ming Ler, Norbert Wimmer, Paul V. Bernhardt, Roger A. Ashmus, David J. Vocadlo, Zachary Armstrong, Gideon J. Davies, Marco Maccarana, Jin ping Li, Yasmin Kayal, Vito Ferro^*

^*Corresponding author for this work

Chemistry

Research output: Contribution to journal › Article › peer-review

Abstract

1-Azasugar analogues of l-iduronic acid (l-IdoA) and d-glucuronic acid (d-GlcA) and their corresponding enantiomers have been synthesized as potential pharmacological chaperones for mucopolysaccharidosis I (MPS I), a lysosomal storage disease caused by mutations in the gene encoding α-iduronidase (IDUA). The compounds were efficiently synthesized in nine or ten steps from d- or l-arabinose, and the structures were confirmed by X-ray crystallographic analysis of key intermediates. All compounds were inactive against IDUA, although l-IdoA-configured 8 moderately inhibited β-glucuronidase (β-GLU). The d-GlcA-configured 9 was a potent inhibitor of β-GLU and a moderate inhibitor of the endo-β-glucuronidase heparanase. Co-crystallization of 9 with heparanase revealed that the endocyclic nitrogen of 9 forms close interactions with both the catalytic acid and catalytic nucleophile.

Original language	English
Article number	e202200619
Number of pages	7
Journal	Chembiochem
Volume	24
Issue number	4
Early online date	3 Jan 2023
DOIs	https://doi.org/10.1002/cbic.202200619
Publication status	Published - 14 Feb 2023

Bibliographical note

Funding Information:
We gratefully acknowledge support from the Australian Research Council (DP170104431 to V.F.). G.G.D. acknowledges financial support from the University of Queensland Ph.D. scholarship program. G.J.D. is supported by the Royal Society Ken Murray Research Professorship. The Natural Sciences and Engineering Council of Canada (RGPIN‐05426 to D.J.V.). D.J.V. was supported as a Tier I Canada Research Chair in Chemical Biology. The authors also thank the Centre for High‐Throughput Chemical Biology (HTCB) for access to core facilities. We thank Sean Cuskelly for technical assistance and Prof. Israel Vlodavsky and Dr. Maurice Petitou for useful discussions. Open Access publishing facilitated by The University of Queensland, as part of the Wiley ‐ The University of Queensland agreement via the Council of Australian University Librarians.

Funding Information:
We gratefully acknowledge support from the Australian Research Council (DP170104431 to V.F.). G.G.D. acknowledges financial support from the University of Queensland Ph.D. scholarship program. G.J.D. is supported by the Royal Society Ken Murray Research Professorship. The Natural Sciences and Engineering Council of Canada (RGPIN-05426 to D.J.V.). D.J.V. was supported as a Tier I Canada Research Chair in Chemical Biology. The authors also thank the Centre for High-Throughput Chemical Biology (HTCB) for access to core facilities. We thank Sean Cuskelly for technical assistance and Prof. Israel Vlodavsky and Dr. Maurice Petitou for useful discussions. Open Access publishing facilitated by The University of Queensland, as part of the Wiley - The University of Queensland agreement via the Council of Australian University Librarians.

Publisher Copyright:
© 2022 The Authors. ChemBioChem published by Wiley-VCH GmbH.

Keywords

azasugars
glucuronidases
heparanases
iduronidases
inhibitors
MPS I

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10.1002/cbic.202200619Licence: CC BY-NC

ChemBioChem - 2022 - Doherty - Synthesis of Uronic Acid 1‐Azasugars as Putative Inhibitors of ‐Iduronidase
© 2022 The Authors.
Final published version, 2.08 MBLicence: CC BY-NC

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Doherty, G. G., Ler, G. J. M., Wimmer, N., Bernhardt, P. V., Ashmus, R. A., Vocadlo, D. J., Armstrong, Z., Davies, G. J., Maccarana, M., Li, J. P., Kayal, Y., & Ferro, V. (2023). Synthesis of Uronic Acid 1-Azasugars as Putative Inhibitors of α-Iduronidase, β-Glucuronidase and Heparanase**. Chembiochem, 24(4), Article e202200619. https://doi.org/10.1002/cbic.202200619

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title = "Synthesis of Uronic Acid 1-Azasugars as Putative Inhibitors of α-Iduronidase, β-Glucuronidase and Heparanase**",

abstract = "1-Azasugar analogues of l-iduronic acid (l-IdoA) and d-glucuronic acid (d-GlcA) and their corresponding enantiomers have been synthesized as potential pharmacological chaperones for mucopolysaccharidosis I (MPS I), a lysosomal storage disease caused by mutations in the gene encoding α-iduronidase (IDUA). The compounds were efficiently synthesized in nine or ten steps from d- or l-arabinose, and the structures were confirmed by X-ray crystallographic analysis of key intermediates. All compounds were inactive against IDUA, although l-IdoA-configured 8 moderately inhibited β-glucuronidase (β-GLU). The d-GlcA-configured 9 was a potent inhibitor of β-GLU and a moderate inhibitor of the endo-β-glucuronidase heparanase. Co-crystallization of 9 with heparanase revealed that the endocyclic nitrogen of 9 forms close interactions with both the catalytic acid and catalytic nucleophile.",

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author = "Doherty, {Gareth G.} and Ler, {Geraldine Jia Ming} and Norbert Wimmer and Bernhardt, {Paul V.} and Ashmus, {Roger A.} and Vocadlo, {David J.} and Zachary Armstrong and Davies, {Gideon J.} and Marco Maccarana and Li, {Jin ping} and Yasmin Kayal and Vito Ferro",

note = "Funding Information: We gratefully acknowledge support from the Australian Research Council (DP170104431 to V.F.). G.G.D. acknowledges financial support from the University of Queensland Ph.D. scholarship program. G.J.D. is supported by the Royal Society Ken Murray Research Professorship. The Natural Sciences and Engineering Council of Canada (RGPIN‐05426 to D.J.V.). D.J.V. was supported as a Tier I Canada Research Chair in Chemical Biology. The authors also thank the Centre for High‐Throughput Chemical Biology (HTCB) for access to core facilities. We thank Sean Cuskelly for technical assistance and Prof. Israel Vlodavsky and Dr. Maurice Petitou for useful discussions. Open Access publishing facilitated by The University of Queensland, as part of the Wiley ‐ The University of Queensland agreement via the Council of Australian University Librarians. Funding Information: We gratefully acknowledge support from the Australian Research Council (DP170104431 to V.F.). G.G.D. acknowledges financial support from the University of Queensland Ph.D. scholarship program. G.J.D. is supported by the Royal Society Ken Murray Research Professorship. The Natural Sciences and Engineering Council of Canada (RGPIN-05426 to D.J.V.). D.J.V. was supported as a Tier I Canada Research Chair in Chemical Biology. The authors also thank the Centre for High-Throughput Chemical Biology (HTCB) for access to core facilities. We thank Sean Cuskelly for technical assistance and Prof. Israel Vlodavsky and Dr. Maurice Petitou for useful discussions. Open Access publishing facilitated by The University of Queensland, as part of the Wiley - The University of Queensland agreement via the Council of Australian University Librarians. Publisher Copyright: {\textcopyright} 2022 The Authors. ChemBioChem published by Wiley-VCH GmbH.",

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AU - Ler, Geraldine Jia Ming

AU - Wimmer, Norbert

AU - Bernhardt, Paul V.

AU - Ashmus, Roger A.

AU - Vocadlo, David J.

AU - Armstrong, Zachary

AU - Davies, Gideon J.

AU - Maccarana, Marco

AU - Li, Jin ping

AU - Kayal, Yasmin

AU - Ferro, Vito

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N2 - 1-Azasugar analogues of l-iduronic acid (l-IdoA) and d-glucuronic acid (d-GlcA) and their corresponding enantiomers have been synthesized as potential pharmacological chaperones for mucopolysaccharidosis I (MPS I), a lysosomal storage disease caused by mutations in the gene encoding α-iduronidase (IDUA). The compounds were efficiently synthesized in nine or ten steps from d- or l-arabinose, and the structures were confirmed by X-ray crystallographic analysis of key intermediates. All compounds were inactive against IDUA, although l-IdoA-configured 8 moderately inhibited β-glucuronidase (β-GLU). The d-GlcA-configured 9 was a potent inhibitor of β-GLU and a moderate inhibitor of the endo-β-glucuronidase heparanase. Co-crystallization of 9 with heparanase revealed that the endocyclic nitrogen of 9 forms close interactions with both the catalytic acid and catalytic nucleophile.

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Synthesis of Uronic Acid 1-Azasugars as Putative Inhibitors of α-Iduronidase, β-Glucuronidase and Heparanase**

Abstract

Bibliographical note

Keywords

Access to Document

Other files and links

RS Research Professorship

Application of activity-based glycosidase probes for mechanism, enzyme discovery and clinical diagnosis

Cite this

Synthesis of Uronic Acid 1-Azasugars as Putative Inhibitors of α-Iduronidase, β-Glucuronidase and Heparanase**

Abstract

Bibliographical note

Keywords

Access to Document

Other files and links

Projects

RS Research Professorship

Application of activity-based glycosidase probes for mechanism, enzyme discovery and clinical diagnosis

Cite this