顶体组装机制揭示了真菌和后生动物极性支架的保守特征。

Spitzenkörper assembly mechanisms reveal conserved features of fungal and metazoan polarity scaffolds.

机构信息

Temasek Life Sciences Laboratory, 1 Research Link, National University of Singapore, Singapore, 117604, Singapore.

Department of Biological Sciences, National University of Singapore, 16 Science Drive 4, Singapore, 117558, Singapore.

出版信息

Nat Commun. 2020 Jun 5;11(1):2830. doi: 10.1038/s41467-020-16712-9.

DOI:10.1038/s41467-020-16712-9

PMID:32503980

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7275032/

Abstract

The Spitzenkörper (SPK) constitutes a collection of secretory vesicles and polarity-related proteins intimately associated with polarized growth of fungal hyphae. Many SPK-localized proteins are known, but their assembly and dynamics remain poorly understood. Here, we identify protein-protein interaction cascades leading to assembly of two SPK scaffolds and recruitment of diverse effectors in Neurospora crassa. Both scaffolds are transported to the SPK by the myosin V motor (MYO-5), with the coiled-coil protein SPZ-1 acting as cargo adaptor. Neither scaffold appears to be required for accumulation of SPK secretory vesicles. One scaffold consists of Leashin-2 (LAH-2), which is required for SPK localization of the signalling kinase COT-1 and the glycolysis enzyme GPI-1. The other scaffold comprises a complex of Janus-1 (JNS-1) and the polarisome protein SPA-2. Via its Spa homology domain (SHD), SPA-2 recruits a calponin domain-containing F-actin effector (CCP-1). The SHD NMR structure reveals a conserved surface groove required for effector binding. Similarities between SPA-2/JNS-1 and the metazoan GIT/PIX complex identify foundational features of the cell polarity apparatus that predate the fungal-metazoan divergence.

摘要

顶体（SPK）由一组分泌小泡和与真菌菌丝极性生长密切相关的极性相关蛋白组成。许多 SPK 定位蛋白已被识别，但它们的组装和动力学仍知之甚少。在这里，我们确定了导致两个 SPK 支架组装和招募 Neurospora crassa 中不同效应物的蛋白质-蛋白质相互作用级联。两个支架都是由肌球蛋白 V 马达（MYO-5）运送到 SPK 的，其中卷曲螺旋蛋白 SPZ-1 作为货物接头。这两个支架似乎都不需要 SPK 分泌小泡的积累。一个支架由 Leashin-2（LAH-2）组成，它是信号激酶 COT-1 和糖酵解酶 GPI-1 在 SPK 定位所必需的。另一个支架由 Janus-1（JNS-1）和极体蛋白 SPA-2 组成。通过其 Spa 同源结构域（SHD），SPA-2 招募了一个含有钙调蛋白结构域的 F-肌动蛋白效应物（CCP-1）。SHD NMR 结构揭示了一个保守的表面凹槽，是效应物结合所必需的。SPA-2/JNS-1 与后生动物 GIT/PIX 复合物之间的相似性确定了细胞极性装置的基本特征，这些特征早于真菌-后生动物的分化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c0b9/7275032/c27e49406755/41467_2020_16712_Fig1_HTML.jpg

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顶体组装机制揭示了真菌和后生动物极性支架的保守特征。

Spitzenkörper assembly mechanisms reveal conserved features of fungal and metazoan polarity scaffolds.

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