Homo- and hetero-oligomeric protein–protein associations explain autocrine and heterologous pheromone-cell interactions in Euplotes

IF 1.9 2区生物学 Q4 MICROBIOLOGY

European journal of protistology Pub Date : 2024-03-16 DOI:10.1016/j.ejop.2024.126075

Claudio Alimenti , Bill Pedrini , Pierangelo Luporini , Yaohan Jiang , Adriana Vallesi

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引用次数: 0

Abstract

In Euplotes, protein pheromones regulate cell reproduction and mating by binding cells in autocrine or heterologous fashion, respectively. Pheromone binding sites (receptors) are identified with membrane-bound pheromone isoforms determined by the same genes specifying the soluble forms, establishing a structural equivalence in each cell type between the two twin proteins. Based on this equivalence, autocrine and heterologous pheromone/receptor interactions were investigated analyzing how native molecules of pheromones Er-1 and Er-13, distinctive of mating compatible E. raikovi cell types, associate into crystals. Er-1 and Er-13 crystals are equally formed by molecules that associate cooperatively into oligomeric chains rigorously taking a mutually opposite orientation, and each burying two interfaces. A minor interface is pheromone-specific, while a major one is common in Er-1 and Er-13 crystals. A close structural inspection of this interface suggests that it may be used by Er-1 and Er-13 to associate into heterodimers, yet inapt to further associate into higher complexes. Pheromone-molecule homo-oligomerization into chains accounts for clustering and internalization of autocrine pheromone/receptor complexes in growing cells, while the heterodimer unsuitability to oligomerize may explain why heterologous pheromone/receptor complexes fail clustering and internalization. Remaining on the cell surface, they are credited with a key role in cell–cell mating adhesion.

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同源和异源异构体蛋白-蛋白关联解释了幼虫的自分泌和异源信息素-细胞相互作用

在Ⅳ类动物中，蛋白质信息素分别通过自分泌或异源方式与细胞结合，调节细胞繁殖和交配。费洛蒙结合位点（受体）与膜结合费洛蒙异构体是通过指定可溶性形式的相同基因确定的，从而在每种细胞类型中建立了这两种孪生蛋白之间的等效结构。基于这种等效性，研究人员对信息素/受体的自分泌和异源相互作用进行了研究，分析了交配相容细胞类型所特有的信息素 E-1 和 E-13 的原生分子是如何结合成晶体的。E-1和E-13晶体同样是由分子形成的，这些分子以相互相反的取向合作结合成低聚物链，每个低聚物链埋藏着两个界面。一个小界面是信息素特异性的，而一个大界面在 E-1 和 E-13 晶体中很常见。对这一界面进行仔细的结构检查后发现，E-1 和 E-13 可能利用这一界面结合成异二聚体，但不适合进一步结合成更高级的复合物。信息素-分子同源寡聚成链是自分泌信息素/受体复合物在生长细胞中聚集和内化的原因，而异源二聚体不适合寡聚可能是异源信息素/受体复合物无法聚集和内化的原因。留在细胞表面的信息素/受体复合物在细胞-细胞交配粘附中发挥着关键作用。

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来源期刊

European journal of protistology 生物-微生物学

CiteScore

4.60

自引率

20.70%

发文量

审稿时长

14.6 weeks

期刊介绍： Articles deal with protists, unicellular organisms encountered free-living in various habitats or as parasites or used in basic research or applications. The European Journal of Protistology covers topics such as the structure and systematics of protists, their development, ecology, molecular biology and physiology. Beside publishing original articles the journal offers a forum for announcing scientific meetings. Reviews of recently published books are included as well. With its diversity of topics, the European Journal of Protistology is an essential source of information for every active protistologist and for biologists of various fields.