Kamesh C Regmi, Suchismita Ghosh, Benjamin Koch, Ulla Neumann, Barry Stein, Richard J O'Connell, Roger W Innes
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Abstract
We used serial block-face scanning electron microscopy (SBF-SEM) to study the host-pathogen interface between Arabidopsis cotyledons and the hemibiotrophic fungus Colletotrichum higginsianum . By combining high-pressure freezing and freeze-substitution with SBF-SEM, followed by segmentation and reconstruction of the imaging volume using the freely accessible software IMOD, we created 3D models of the series of cytological events that occur during the Colletotrichum-Arabidopsis susceptible interaction. We found that the host cell membranes underwent massive expansion to accommodate the rapidly growing intracellular hypha. As the fungal infection proceeded from the biotrophic to the necrotrophic stage, the host cell membranes went through increasing levels of disintegration culminating in host cell death. Intriguingly, we documented autophagosomes in proximity to biotrophic hyphae using transmission electron microscopy (TEM) and a concurrent increase in autophagic flux between early to mid/late biotrophic phase of the infection process. Occasionally, we observed osmiophilic bodies in the vicinity of biotrophic hyphae using TEM only and near necrotrophic hyphae under both TEM and SBF-SEM. Overall, we established a method for obtaining serial SBF-SEM images, each with a lateral (x-y ) pixel resolution of 10 nm and an axial (z ) resolution of 40 nm, that can be reconstructed into interactive 3D models using the IMOD. Application of this method to the Colletotrichum-Arabidopsis pathosystem allowed us to more fully understand the spatial arrangement and morphological architecture of the fungal hyphae after they penetrate epidermal cells of Arabidopsis cotyledons and the cytological changes the host cell undergoes as the infection progresses toward necrotrophy. [Formula: see text] Copyright © 2024 The Author(s). This is an open access article distributed under the CC BY 4.0 International license.
拟南芥子叶感染 Colletotrichum higginsianum 的三维超微结构。
我们利用序列块面扫描电子显微镜(SBF-SEM)研究了拟南芥子叶与半知菌 Colletotrichum higginsianum 之间的寄主-病原体界面。通过将高压冷冻和冷冻置换与 SBF-SEM 结合起来,然后使用 IMOD 对成像体积进行分割和重建,我们创建了拟南芥与 Colletotrichum 相互作用过程中发生的一系列细胞学事件的三维模型。我们发现,宿主细胞膜发生了大规模扩张,以容纳快速生长的胞内菌丝。随着真菌感染从生物营养阶段进入坏死阶段,宿主细胞膜的解体程度越来越高,最终导致宿主细胞死亡。耐人寻味的是,我们利用透射电子显微镜(TEM)在生物营养菌丝附近发现了自噬体,而且在感染过程的早期到中期/晚期生物营养阶段,自噬通量同时增加。有时,我们仅使用透射电子显微镜在生物营养菌丝附近观察到嗜锇体,而在透射电子显微镜和 SBF-SEM 下则在坏死菌丝附近观察到嗜锇体。总之,我们建立了一种获取序列 SBF-SEM 图像的方法,每幅图像的横向(x-y)像素分辨率为 10 纳米,轴向(z)分辨率为 40 纳米。将这种方法应用于拟南芥-拟南芥病理系统,使我们能够更全面地了解真菌菌丝穿透拟南芥子叶表皮细胞后的空间排列和形态结构,以及宿主细胞在感染过程中发生的细胞学变化。
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