Department of Microbiology, Centro de Investigación Científica y de Educación Superior de Ensenada, Ensenada, BC 22860, Mexico.
School of Life Sciences, Arizona State University, Tempe, AZ, USA.
Fungal Genet Biol. 2018 Aug;117:30-42. doi: 10.1016/j.fgb.2018.03.006. Epub 2018 Mar 27.
In Neurospora crassa hyphae the localization of all seven chitin synthases (CHSs) at the Spitzenkörper (SPK) and at developing septa has been well analyzed. Hitherto, the mechanisms of CHSs traffic and sorting from synthesis to delivery sites remain largely unexplored. In Saccharomyces cerevisiae exit of Chs3p from the endoplasmic reticulum (ER) requires chaperone Chs7p. Here, we analyzed the role of CSE-7, N. crassa Chs7p orthologue, in the biogenesis of CHS-4 (orthologue of Chs3p). In a N. crassa Δcse-7 mutant, CHS-4-GFP no longer accumulated at the SPK and septa. Instead, fluorescence was retained in hyphal subapical regions in an extensive network of elongated cisternae (NEC) referred to previously as tubular vacuoles. In a complemented strain expressing a copy of cse-7 the localization of CHS-4-GFP at the SPK and septa was restored, providing evidence that CSE-7 is necessary for the localization of CHS-4 at hyphal tips and septa. CSE-7 was revealed at delimited regions of the ER at the immediacies of nuclei, at the NEC, and remarkably also at septa and the SPK. The organization of the NEC was dependent on the cytoskeleton. SEC-63, an extensively used ER marker, and NCA-1, a SERCA-type ATPase previously localized at the nuclear envelope, were used as markers to discern the nature of the membranes containing CSE-7. Both SEC-63 and NCA-1 were found at the nuclear envelope, but also at regions of the NEC. However, at the NEC only NCA-1 co-localized extensively with CSE-7. Observations by transmission electron microscopy revealed abundant rough ER sheets and distinct electron translucent smooth flattened cisternae, which could correspond collectively to the NEC, thorough the subapical cytoplasm. This study identifies CSE-7 as the putative ER receptor for its cognate cargo, the polytopic membrane protein CHS-4, and elucidates the complexity of the ER system in filamentous fungi.
在粗糙脉孢菌菌丝中,所有 7 种几丁质合酶(CHSs)在 Spitzenkörper(SPK)和正在发育的隔膜处的定位已得到很好的分析。迄今为止,CHSs 从合成到递送至目的地的运输和分类机制在很大程度上仍未得到探索。在酿酒酵母中,Chs3p 从内质网(ER)的输出需要伴侣蛋白 Chs7p。在这里,我们分析了粗糙脉孢菌 Chs7p 同源物 CSE-7 在 CHS-4(Chs3p 同源物)生物发生中的作用。在粗糙脉孢菌 Δcse-7 突变体中,CHS-4-GFP 不再在 SPK 和隔膜处积累。相反,荧光保留在菌丝亚顶端区域的广泛伸长的内质网(NEC)网络中,以前称为管状液泡。在表达 cse-7 拷贝的互补菌株中,CHS-4-GFP 在 SPK 和隔膜处的定位得到恢复,这表明 CSE-7 是 CHS-4 在菌丝尖端和隔膜处定位所必需的。CSE-7 在内质网的细胞核附近、NEC 以及显著的隔膜和 SPK 的限定区域被揭示。NEC 的组织依赖于细胞骨架。SEC-63,一种广泛使用的 ER 标记物,和 NCA-1,一种以前定位于核膜的 SERCA 型 ATP 酶,被用作标记物来区分包含 CSE-7 的膜的性质。SEC-63 和 NCA-1 都在内质网的核膜上被发现,但也在内质网的区域中被发现。然而,在内质网的 NEC 区域,只有 NCA-1 与 CSE-7 广泛共定位。透射电子显微镜观察显示,丰富的粗糙内质网片和明显的电子透明光滑扁平内质网,它们可以共同对应于亚顶端细胞质中的 NEC。这项研究确定 CSE-7 是其同源货物,多跨膜蛋白 CHS-4 的内质网受体,并阐明了丝状真菌中内质网系统的复杂性。
