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真菌粘附素Aga1p细胞表面定位和功能所需的翻译后修饰。

Posttranslational modifications required for cell surface localization and function of the fungal adhesin Aga1p.

作者信息

Huang Guohong, Zhang Mingliang, Erdman Scott E

机构信息

Department of Biology, Syracuse University, Syracuse, New York 13244, USA.

出版信息

Eukaryot Cell. 2003 Oct;2(5):1099-114. doi: 10.1128/EC.2.5.1099-1114.2003.

Abstract

Adherence of fungal cells to host substrates and each other affects their access to nutrients, sexual conjugation, and survival in hosts. Adhesins are cell surface proteins that mediate these different cell adhesion interactions. In this study, we examine the in vivo functional requirements for specific posttranslational modifications to these proteins, including glycophosphatidylinositol (GPI) anchor addition and O-linked glycosylation. The processing of some fungal GPI anchors, creating links to cell wall beta-1,6 glucans, is postulated to facilitate postsecretory traffic of proteins to cell wall domains conducive to their functions. By studying the yeast sexual adhesin subunit Aga1p, we found that deletion of its signal sequence for GPI addition eliminated its activity, while deletions of different internal domains had various effects on function. Substitution of the Aga1p GPI signal domain with those of other GPI-anchored proteins, a single transmembrane domain, or a cysteine capable of forming a disulfide all produced functional adhesins. A portion of the cellular pool of Aga1p was determined to be cell wall resident. Aga1p and the alpha-agglutinin Agalpha1p were shown to be under glycosylated in cells lacking the protein mannosyltransferase genes PMT1 and PMT2, with phenotypes manifested only in MATalpha cells for single mutants but in both cell types when both genes are absent. We conclude that posttranslational modifications to Aga1p are necessary for its biogenesis and activity. Our studies also suggest that in addition to GPI-glucan linkages, other cell surface anchorage mechanisms, such as transmembrane domains or disulfides, may be employed by fungal species to localize adhesins.

摘要

真菌细胞与宿主底物以及彼此之间的黏附会影响它们获取营养、进行有性结合以及在宿主体内的存活。黏附素是介导这些不同细胞黏附相互作用的细胞表面蛋白。在本研究中,我们研究了这些蛋白特定翻译后修饰的体内功能需求,包括糖基磷脂酰肌醇(GPI)锚定添加和O-连接糖基化。一些真菌GPI锚定的加工过程会形成与细胞壁β-1,6-葡聚糖的连接,据推测这有助于蛋白质分泌后运输到有利于其功能的细胞壁区域。通过研究酵母有性黏附素亚基Aga1p,我们发现缺失其GPI添加信号序列会消除其活性,而不同内部结构域的缺失对功能有不同影响。用其他GPI锚定蛋白、单个跨膜结构域或能够形成二硫键的半胱氨酸取代Aga1p的GPI信号结构域均产生了功能性黏附素。已确定细胞内一部分Aga1p存在于细胞壁中。在缺乏蛋白质甘露糖基转移酶基因PMT1和PMT2的细胞中,Aga1p和α-凝集素Agalpha1p显示为糖基化不足,单突变体的表型仅在MATα细胞中出现,但当两个基因都缺失时,两种细胞类型都会出现。我们得出结论,Aga1p的翻译后修饰对其生物合成和活性是必要的。我们的研究还表明,除了GPI-葡聚糖连接外,真菌物种可能还会采用其他细胞表面锚定机制,如跨膜结构域或二硫键,来定位黏附素。

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