A secreted endosymbiont protein essential for colonizing host cells

生物 细胞生物学 使负有责任或义务 细胞质 细胞内寄生虫 分泌物 效应器 细胞内 肌动蛋白 共生 寄主(生物学) 胚胎干细胞 微生物学 基因敲除 基因组 免疫系统 基因 致病岛 先天免疫系统 细菌 细胞 内共生 细菌遗传学 遗传学 液泡 同源染色体 细胞溶解 免疫荧光 活体细胞成像
作者
Gerald P. Maeda,Allen Z. Xue,Ethan W. Yu,Aadhunik Sundar,J. Elijah Powell,Thomas E. Smith,Nancy A. Moran,Nancy A. Moran
出处
期刊:Nature [Nature Portfolio]
被引量:1
标识
DOI:10.1038/s41586-026-10711-4
摘要

ABSTRACT Intracellular bacterial symbioses have arisen myriad times in eukaryotes, with dozens known from insects alone 1,2 . Beginning with Buchnera , the obligate endosymbiont of aphids, genomes of endosymbionts have illuminated their evolutionary origins and metabolic contributions to hosts 3,4 . However, the mechanisms by which nonculturable endosymbionts enter host cells and suppress cellular immune processes have remained unknown. We show that an uncharacterized Buchnera protein, here designated SyeA, was present in the Buchnera ancestor, is secreted and homologous to secreted effectors of bacterial pathogens and is essential for Buchnera transmission. Buchnera is transmitted via expulsion from specialized maternal cells and uptake by embryos 5 . Using immunofluorescence microscopy, we found that SyeA levels peak upon colonization, accompanied by actin accumulation at the entry site. SyeA localizes outside the host-derived membrane and actin layer surrounding each Buchnera cell and colocalizes in host cytoplasm with Rho1, which regulates actin polymerization. syeA knockdown disrupts colonization and embryonic development and elevates lysosomal activity, leading to Buchnera destruction 6 . Our findings provide rare insight into how an anciently associated, mutualistic endosymbiont achieves its intracellular existence. SyeA is a vestige of pathogenic origins followed by evolution of increased host control and erosion of the original, more complex pathogenicity machinery.
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