Genetic and structural validation of Aspergillus fumigatus N-acetylphosphoglucosamine mutase as an antifungal target

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Abstract

Aspergillus fumigatus is the causative agent of IA (invasive aspergillosis) in immunocompromised patients. It possesses a cell wall composed of chitin, glucan and galactomannan, polymeric carbohydrates synthesized by processive glycosyltransferases from intracellular sugar nucleotide donors. Here we demonstrate that A. fumigatus possesses an active AfAGM1 ( A. fumigatus N-acetylphosphoglucosamine mutase), a key enzyme in the biosynthesis of UDP (uridine diphosphate)–GlcNAc ( N-acetylglucosamine), the nucleotide sugar donor for chitin synthesis. A conditional agm1 mutant revealed the gene to be essential. Reduced expression of agm1 resulted in retarded cell growth and altered cell wall ultrastructure and composition. The crystal structure of AfAGM1 revealed an amino acid change in the active site compared with the human enzyme, which could be exploitable in the design of selective inhibitors. AfAGM1 inhibitors were discovered by high-throughput screening, inhibiting the enzyme with IC ₅₀s in the low μM range. Together, these data provide a platform for the future development of AfAGM1 inhibitors with antifungal activity.

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J P Latgé (1999)

Aspergillus fumigatus is one of the most ubiquitous of the airborne saprophytic fungi. Humans and animals constantly inhale numerous conidia of this fungus. The conidia are normally eliminated in the immunocompetent host by innate immune mechanisms, and aspergilloma and allergic bronchopulmonary aspergillosis, uncommon clinical syndromes, are the only infections observed in such hosts. Thus, A. fumigatus was considered for years to be a weak pathogen. With increases in the number of immunosuppressed patients, however, there has been a dramatic increase in severe and usually fatal invasive aspergillosis, now the most common mold infection worldwide. In this review, the focus is on the biology of A. fumigatus and the diseases it causes. Included are discussions of (i) genomic and molecular characterization of the organism, (ii) clinical and laboratory methods available for the diagnosis of aspergillosis in immunocompetent and immunocompromised hosts, (iii) identification of host and fungal factors that play a role in the establishment of the fungus in vivo, and (iv) problems associated with antifungal therapy.

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Cell wall integrity signaling in Saccharomyces cerevisiae.

David E. Levin (2005)

The yeast cell wall is a highly dynamic structure that is responsible for protecting the cell from rapid changes in external osmotic potential. The wall is also critical for cell expansion during growth and morphogenesis. This review discusses recent advances in understanding the various signal transduction pathways that allow cells to monitor the state of the cell wall and respond to environmental challenges to this structure. The cell wall integrity signaling pathway controlled by the small G-protein Rho1 is principally responsible for orchestrating changes to the cell wall periodically through the cell cycle and in response to various forms of cell wall stress. This signaling pathway acts through direct control of wall biosynthetic enzymes, transcriptional regulation of cell wall-related genes, and polarization of the actin cytoskeleton. However, additional signaling pathways interface both with the cell wall integrity signaling pathway and with the actin cytoskeleton to coordinate polarized secretion with cell wall expansion. These include Ca(2+) signaling, phosphatidylinositide signaling at the plasma membrane, sphingoid base signaling through the Pkh1 and -2 protein kinases, Tor kinase signaling, and pathways controlled by the Rho3, Rho4, and Cdc42 G-proteins.

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Author and article information

Journal

Journal ID (nlm-ta): Biosci Rep

Journal ID (iso-abbrev): Biosci. Rep

Journal ID (pmc): bsr

Journal ID (publisher-id): BSR

Title: Bioscience Reports

Publisher: Portland Press Ltd.

ISSN (Print): 0144-8463

ISSN (Electronic): 1573-4935

Publication date (Electronic preprint): 11 July 2013

Publication date (Electronic): 4 September 2013

Publication date Collection: 2013

Volume: 33

Issue: 5

Electronic Location Identifier: e00063

Affiliations

*Division of Molecular Microbiology, University of Dundee, DD1 5EH, Scotland, U.K.

†State Key Laboratory of Mycology, Institute of Microbiology, Chinese Academy of Sciences, Beijing 100101, People's Republic of China

‡Division of Biological Chemistry and Drug Discovery, University of Dundee, DD1 5EH, Scotland, U.K.

§The College of Life Sciences Cloning Team, College of Life Sciences, University of Dundee, DD1 5EH, Scotland, U.K.

Author notes

¹These authors contributed equally to this work.

²Present address: Department of Biochemistry, Lagos State University, Ojo Lagos Nigeria. P.O. Box 0001 LASU, Nigeria

³Present address: Institute of Biocomputation and Physics of Complex Systems (BIFI), University of Zaragoza, BIFI-IQFR (CSIC) Joint Unit, Mariano Esquillor s/n, Campus Rio Ebro, Edificio I+D; Fundacion ARAID, Edificio Pignatelli 36, Spain.

⁴Present address: Laboratory of Functional and Molecular Glycomics, Institute of Biology and Experimental Medicine (IBYME), National Council Research (CONICET), C1428 Buenos Aires, Argentina.

⁵Present address: Department of Chemistry, Faculty of Science, Taibah University, Al Madenah Al Monwarah, Saudi Arabia.

⁶Correspondence may be addressed to either of these authors (email dmfvanaalten@ 123456dundee.ac.uk or jinc@ 123456sun.im.ac.cn ).

Article

Publisher ID: e00063

DOI: 10.1042/BSR20130053

PMC ID: 3763426

PubMed ID: 23844980

SO-VID: a797d1cc-4d63-45bd-bb39-6883553f512f

Copyright © © 2013 The author(s) has paid for this article to be freely available under the terms of the Creative Commons Attribution Licence (CC-BY)(http://creativecommons.org/licenses/by/3.0/) which permits unrestricted use, distribution and reproduction in any medium, provided the original work is properly cited.

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This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution and reproduction in any medium, provided the original work is properly cited.

History

Date received : 22 May 2013

Date accepted : 6 June 2013

Page count

Figures: 5, Tables: 3, References: 50, Pages: 11

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Genetic and structural validation of Aspergillus fumigatus N-acetylphosphoglucosamine mutase as an antifungal target

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Evolutionary Cell Biology

Most cited references 45

Treatment of aspergillosis: clinical practice guidelines of the Infectious Diseases Society of America.

Aspergillus fumigatus and aspergillosis.

Cell wall integrity signaling in Saccharomyces cerevisiae.

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