Structural and mechanistic insights into fungal β-1,3-glucan synthase FKS1
The membrane-integrated synthase FKS is involved in the biosynthesis of β-1,3-glucan, the core component of the fungal cell wall 1 , 2 . FKS is the target of widely prescribed antifungal drugs, including echinocandin and ibrexafungerp 3 , 4 . Unfortunately, the mechanism of action of FKS remains eni...
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| Veröffentlicht in: | Nature (London) Jg. 616; H. 7955; S. 190 - 198 |
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| Format: | Journal Article |
| Sprache: | Englisch |
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06.04.2023
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| ISSN: | 0028-0836, 1476-4687, 1476-4687 |
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| Abstract | The membrane-integrated synthase FKS is involved in the biosynthesis of β-1,3-glucan, the core component of the fungal cell wall
1
,
2
. FKS is the target of widely prescribed antifungal drugs, including echinocandin and ibrexafungerp
3
,
4
. Unfortunately, the mechanism of action of FKS remains enigmatic and this has hampered development of more effective medicines targeting the enzyme. Here we present the cryo-electron microscopy structures of
Saccharomyces cerevisiae
FKS1 and the echinocandin-resistant mutant FKS1(S643P). These structures reveal the active site of the enzyme at the membrane–cytoplasm interface and a glucan translocation path spanning the membrane bilayer. Multiple bound lipids and notable membrane distortions are observed in the FKS1 structures, suggesting active FKS1–membrane interactions. Echinocandin-resistant mutations are clustered at a region near TM5–6 and TM8 of FKS1. The structure of FKS1(S643P) reveals altered lipid arrangements in this region, suggesting a drug-resistant mechanism of the mutant enzyme. The structures, the catalytic mechanism and the molecular insights into drug-resistant mutations of FKS1 revealed in this study advance the mechanistic understanding of fungal β-1,3-glucan biosynthesis and establish a foundation for developing new antifungal drugs by targeting FKS.
Using cryo-electron microscopy, the molecular architecture and catalytic mechanism of action of the fungal β-1,3-glucan synthase FKS1 are determined. |
|---|---|
| AbstractList | The membrane-integrated synthase FKS is involved in the biosynthesis of β-1,3-glucan, the core component of the fungal cell wall1,2. FKS is the target of widely prescribed antifungal drugs, including echinocandin and ibrexafungerp3,4. Unfortunately, the mechanism of action of FKS remains enigmatic and this has hampered development of more effective medicines targeting the enzyme. Here we present the cryo-electron microscopy structures of Saccharomyces cerevisiae FKS1 and the echinocandin-resistant mutant FKS1(S643P). These structures reveal the active site of the enzyme at the membrane-cytoplasm interface and a glucan translocation path spanning the membrane bilayer. Multiple bound lipids and notable membrane distortions are observed in the FKS1 structures, suggesting active FKS1-membrane interactions. Echinocandin-resistant mutations are clustered at a region near TM5-6 and TM8 of FKS1. The structure of FKS1(S643P) reveals altered lipid arrangements in this region, suggesting a drug-resistant mechanism of the mutant enzyme. The structures, the catalytic mechanism and the molecular insights into drug-resistant mutations of FKS1 revealed in this study advance the mechanistic understanding of fungal β-1,3-glucan biosynthesis and establish a foundation for developing new antifungal drugs by targeting FKS.The membrane-integrated synthase FKS is involved in the biosynthesis of β-1,3-glucan, the core component of the fungal cell wall1,2. FKS is the target of widely prescribed antifungal drugs, including echinocandin and ibrexafungerp3,4. Unfortunately, the mechanism of action of FKS remains enigmatic and this has hampered development of more effective medicines targeting the enzyme. Here we present the cryo-electron microscopy structures of Saccharomyces cerevisiae FKS1 and the echinocandin-resistant mutant FKS1(S643P). These structures reveal the active site of the enzyme at the membrane-cytoplasm interface and a glucan translocation path spanning the membrane bilayer. Multiple bound lipids and notable membrane distortions are observed in the FKS1 structures, suggesting active FKS1-membrane interactions. Echinocandin-resistant mutations are clustered at a region near TM5-6 and TM8 of FKS1. The structure of FKS1(S643P) reveals altered lipid arrangements in this region, suggesting a drug-resistant mechanism of the mutant enzyme. The structures, the catalytic mechanism and the molecular insights into drug-resistant mutations of FKS1 revealed in this study advance the mechanistic understanding of fungal β-1,3-glucan biosynthesis and establish a foundation for developing new antifungal drugs by targeting FKS. The membrane-integrated synthase FKS is involved in the biosynthesis of ß-1, 3-glucan, the core component of the fungal cell wall1,2. FKS is the target of widely prescribed antifungal drugs, including echinocandin and ibrexafungerp3,4. Unfortunately, the mechanism of action of FKS remains enigmatic and this has hampered development of more effective medicines targeting the enzyme. Here we present the cryo-electron microscopy structures of Saccharomyces cerevisiae FKS1 and the echinocandin-resistant mutant FKS1(S643P). These structures reveal the active site of the enzyme at the membrane-cytoplasm interface and a glucan translocation path spanning the membrane bilayer. Multiple bound lipids and notable membrane distortions are observed in the FKS1 structures, suggesting active FKS1-membrane interactions. Echinocandin-resistant mutations are clustered at a region near TM5-6 and TM8 of FKS1. The structure of FKS1(S643P) reveals altered lipid arrangements in this region, suggesting a drug-resistant mechanism of the mutant enzyme. The structures, the catalytic mechanism and the molecular insights into drug-resistant mutations of FKS1 revealed in this study advance the mechanistic understanding of fungal ß-1,3-glucan biosynthesis and establish a foundation for developing new antifungal drugs by targeting FKS. The membrane-integrated synthase FKS is involved in the biosynthesis of β-1,3-glucan, the core component of the fungal cell wall1,2. FKS is the target of widely prescribed antifungal drugs, including echinocandin and ibrexafungerp3,4. Unfortunately, the mechanism of action of FKS remains enigmatic and this has hampered development of more effective medicines targeting the enzyme. Here we present the cryo-electron microscopy structures of Saccharomyces cerevisiae FKS1 and the echinocandin-resistant mutant FKS1(S643P). These structures reveal the active site of the enzyme at the membrane–cytoplasm interface and a glucan translocation path spanning the membrane bilayer. Multiple bound lipids and notable membrane distortions are observed in the FKS1 structures, suggesting active FKS1–membrane interactions. Echinocandin-resistant mutations are clustered at a region near TM5–6 and TM8 of FKS1. The structure of FKS1(S643P) reveals altered lipid arrangements in this region, suggesting a drug-resistant mechanism of the mutant enzyme. The structures, the catalytic mechanism and the molecular insights into drug-resistant mutations of FKS1 revealed in this study advance the mechanistic understanding of fungal β-1,3-glucan biosynthesis and establish a foundation for developing new antifungal drugs by targeting FKS. Using cryo-electron microscopy, the molecular architecture and catalytic mechanism of action of the fungal β-1,3-glucan synthase FKS1 are determined. The membrane-integrated synthase FKS is involved in the biosynthesis of β-1,3-glucan, the core component of the fungal cell wall 1 , 2 . FKS is the target of widely prescribed antifungal drugs, including echinocandin and ibrexafungerp 3 , 4 . Unfortunately, the mechanism of action of FKS remains enigmatic and this has hampered development of more effective medicines targeting the enzyme. Here we present the cryo-electron microscopy structures of Saccharomyces cerevisiae FKS1 and the echinocandin-resistant mutant FKS1(S643P). These structures reveal the active site of the enzyme at the membrane–cytoplasm interface and a glucan translocation path spanning the membrane bilayer. Multiple bound lipids and notable membrane distortions are observed in the FKS1 structures, suggesting active FKS1–membrane interactions. Echinocandin-resistant mutations are clustered at a region near TM5–6 and TM8 of FKS1. The structure of FKS1(S643P) reveals altered lipid arrangements in this region, suggesting a drug-resistant mechanism of the mutant enzyme. The structures, the catalytic mechanism and the molecular insights into drug-resistant mutations of FKS1 revealed in this study advance the mechanistic understanding of fungal β-1,3-glucan biosynthesis and establish a foundation for developing new antifungal drugs by targeting FKS. Using cryo-electron microscopy, the molecular architecture and catalytic mechanism of action of the fungal β-1,3-glucan synthase FKS1 are determined. The membrane-integrated synthase FKS is involved in the biosynthesis of β-1,3-glucan, the core component of the fungal cell wall . FKS is the target of widely prescribed antifungal drugs, including echinocandin and ibrexafungerp . Unfortunately, the mechanism of action of FKS remains enigmatic and this has hampered development of more effective medicines targeting the enzyme. Here we present the cryo-electron microscopy structures of Saccharomyces cerevisiae FKS1 and the echinocandin-resistant mutant FKS1(S643P). These structures reveal the active site of the enzyme at the membrane-cytoplasm interface and a glucan translocation path spanning the membrane bilayer. Multiple bound lipids and notable membrane distortions are observed in the FKS1 structures, suggesting active FKS1-membrane interactions. Echinocandin-resistant mutations are clustered at a region near TM5-6 and TM8 of FKS1. The structure of FKS1(S643P) reveals altered lipid arrangements in this region, suggesting a drug-resistant mechanism of the mutant enzyme. The structures, the catalytic mechanism and the molecular insights into drug-resistant mutations of FKS1 revealed in this study advance the mechanistic understanding of fungal β-1,3-glucan biosynthesis and establish a foundation for developing new antifungal drugs by targeting FKS. |
| Author | Yang, Ping Sun, Huanhuan Yu, Hongjun Zhang, Mingjie Liu, Xiaotian Hu, Xinlin Liu, Jia Chai, Changdong Wu, Yanan Zhang, Min |
| Author_xml | – sequence: 1 givenname: Xinlin surname: Hu fullname: Hu, Xinlin organization: Department of Biochemistry and Molecular Biology, School of Basic Medicine, Tongji Medical College, Huazhong University of Science and Technology, Department of Pathogen Biology, School of Basic Medicine, Tongji Medical College, Huazhong University of Science and Technology – sequence: 2 givenname: Ping surname: Yang fullname: Yang, Ping organization: Department of Biochemistry and Molecular Biology, School of Basic Medicine, Tongji Medical College, Huazhong University of Science and Technology – sequence: 3 givenname: Changdong surname: Chai fullname: Chai, Changdong organization: Department of Biochemistry and Molecular Biology, School of Basic Medicine, Tongji Medical College, Huazhong University of Science and Technology – sequence: 4 givenname: Jia surname: Liu fullname: Liu, Jia organization: Department of Biochemistry and Molecular Biology, School of Basic Medicine, Tongji Medical College, Huazhong University of Science and Technology, Department of Pathogen Biology, School of Basic Medicine, Tongji Medical College, Huazhong University of Science and Technology – sequence: 5 givenname: Huanhuan surname: Sun fullname: Sun, Huanhuan organization: Department of Biochemistry and Molecular Biology, School of Basic Medicine, Tongji Medical College, Huazhong University of Science and Technology – sequence: 6 givenname: Yanan surname: Wu fullname: Wu, Yanan organization: Department of Biochemistry and Molecular Biology, School of Basic Medicine, Tongji Medical College, Huazhong University of Science and Technology – sequence: 7 givenname: Mingjie surname: Zhang fullname: Zhang, Mingjie organization: School of Life Sciences, Southern University of Science and Technology, Greater Bay Biomedical Innocenter, Shenzhen Bay Laboratory – sequence: 8 givenname: Min orcidid: 0000-0002-8844-8402 surname: Zhang fullname: Zhang, Min email: minzhang@hust.edu.cn organization: Department of Biochemistry and Molecular Biology, School of Basic Medicine, Tongji Medical College, Huazhong University of Science and Technology, Department of Pathogen Biology, School of Basic Medicine, Tongji Medical College, Huazhong University of Science and Technology – sequence: 9 givenname: Xiaotian orcidid: 0000-0001-5009-1287 surname: Liu fullname: Liu, Xiaotian email: liuxt@sustech.edu.cn organization: School of Life Sciences, Southern University of Science and Technology – sequence: 10 givenname: Hongjun orcidid: 0000-0002-1483-2962 surname: Yu fullname: Yu, Hongjun email: hongjun_yu@hust.edu.cn organization: Department of Biochemistry and Molecular Biology, School of Basic Medicine, Tongji Medical College, Huazhong University of Science and Technology, Cell Architecture Research Center, Huazhong University of Science and Technology |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/36949198$$D View this record in MEDLINE/PubMed |
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| DOI | 10.1038/s41586-023-05856-5 |
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| Snippet | The membrane-integrated synthase FKS is involved in the biosynthesis of β-1,3-glucan, the core component of the fungal cell wall
1
,
2
. FKS is the target of... The membrane-integrated synthase FKS is involved in the biosynthesis of β-1,3-glucan, the core component of the fungal cell wall . FKS is the target of widely... The membrane-integrated synthase FKS is involved in the biosynthesis of ß-1, 3-glucan, the core component of the fungal cell wall1,2. FKS is the target of... The membrane-integrated synthase FKS is involved in the biosynthesis of β-1,3-glucan, the core component of the fungal cell wall1,2. FKS is the target of... |
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| SubjectTerms | 101/28 631/326/193 631/45/221 631/535/1258/1259 82/16 82/80 82/83 Antifungal agents Antifungal Agents - pharmacology beta-Glucans - metabolism Biosynthesis Catalytic Domain Cell Membrane - chemistry Cell Membrane - metabolism Cryoelectron Microscopy Cytoplasm Drug delivery Drug resistance Drug Resistance, Fungal - drug effects Drug Resistance, Fungal - genetics Drugs Echinocandins Echinocandins - pharmacology Electron microscopy Enzymes Fungi Fungicides Glucan Glucosyltransferases - antagonists & inhibitors Glucosyltransferases - chemistry Glucosyltransferases - genetics Glucosyltransferases - metabolism Glucosyltransferases - ultrastructure Humanities and Social Sciences Lipids Membranes Microbial Sensitivity Tests Microscopy multidisciplinary Mutation Polymers Resistant mutant Saccharomyces cerevisiae - drug effects Saccharomyces cerevisiae - enzymology Saccharomyces cerevisiae Proteins - antagonists & inhibitors Saccharomyces cerevisiae Proteins - chemistry Saccharomyces cerevisiae Proteins - genetics Saccharomyces cerevisiae Proteins - metabolism Saccharomyces cerevisiae Proteins - ultrastructure Science Science (multidisciplinary) Translocation β-1,3-Glucan |
| Title | Structural and mechanistic insights into fungal β-1,3-glucan synthase FKS1 |
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