Solid-state NMR analysis of unlabeled fungal cell walls from Aspergillus and Candida species

IF 3.5 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Liyanage D. Fernando , Malitha C. Dickwella Widanage , S. Chandra Shekar , Frederic Mentink-Vigier , Ping Wang , Sungsool Wi , Tuo Wang
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引用次数: 10

Abstract

Fungal infections cause high mortality in immunocompromised individuals, which has emerged as a significant threat to human health. The efforts devoted to the development of antifungal agents targeting the cell wall polysaccharides have been hindered by our incomplete picture of the assembly and remodeling of fungal cell walls. High-resolution solid-state nuclear magnetic resonance (ss NMR) studies have substantially revised our understanding of the polymorphic structure of polysaccharides and the nanoscale organization of cell walls in Aspergillus fumigatus and multiple other fungi. However, this approach requires 13C/15N-enrichment of the sample being studied, severely restricting its application. Here we employ the dynamic nuclear polarization (DNP) technique to compare the unlabeled cell wall materials of A. fumigatus and C. albicans prepared using both liquid and solid media. For each fungus, we have identified a highly conserved carbohydrate core for the cell walls of conidia and mycelia, and from liquid and solid cultures. Using samples prepared in different media, the recently identified function of α-glucan, which packs with chitin to form the mechanical centers, has been confirmed through conventional ss NMR measurements of polymer dynamics. These timely efforts not only validate the structural principles recently discovered for A. fumigatus cell walls in different morphological stages, but also open up the possibility of extending the current investigation to other fungal materials and cellular systems that are challenging to label.

Abstract Image

曲霉和念珠菌未标记真菌细胞壁的固态NMR分析
真菌感染导致免疫功能低下的人死亡率高,这已成为对人类健康的重大威胁。由于我们对真菌细胞壁组装和重塑的不完整了解,致力于开发靶向细胞壁多糖的抗真菌药物的努力受到了阻碍。高分辨率固态核磁共振(ss-NMR)研究极大地改变了我们对烟曲霉和多种其他真菌多糖多态性结构和细胞壁纳米级组织的理解。然而,这种方法需要对所研究的样品进行13C/15N富集,这严重限制了其应用。在这里,我们使用动态核极化(DNP)技术来比较使用液体和固体培养基制备的烟曲霉和白色念珠菌的未标记细胞壁材料。对于每种真菌,我们都为分生孢子和菌丝体的细胞壁以及液体和固体培养物确定了一个高度保守的碳水化合物核心。使用在不同介质中制备的样品,最近确定的α-葡聚糖的功能已经通过聚合物动力学的常规ss NMR测量得到证实,α-葡聚糖与几丁质结合形成机械中心。这些及时的努力不仅验证了最近发现的烟曲霉细胞壁在不同形态阶段的结构原理,而且为将当前的研究扩展到其他具有挑战性的真菌材料和细胞系统开辟了可能性。
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来源期刊
Journal of Structural Biology: X
Journal of Structural Biology: X Biochemistry, Genetics and Molecular Biology-Structural Biology
CiteScore
6.50
自引率
0.00%
发文量
20
审稿时长
62 days
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