宿主AAA-ATP酶VCP/p97可裂解泛素化的细胞内细菌，作为一种先天性抗菌防御机制。

Host AAA-ATPase VCP/p97 lyses ubiquitinated intracellular bacteria as an innate antimicrobial defence.

作者信息

Ghosh Sourav, Roy Suvapriya, Baid Navin, Das Udit Kumar, Rakshit Sumit, Sanghavi Paulomi, Hajra Dipasree, Das Sayani, Menon Sneha, Sahil Mohammad, Shaw Sudipti, Rajmani Raju S, Adicherla Harikrishna, Kaledhonkar Sandip, Mondal Jagannath, Chakravortty Dipshikha, Mallik Roop, Banerjee Anirban

机构信息

Department of Biosciences and Bioengineering, Indian Institute of Technology Bombay, Mumbai, Maharashtra, India.

Department of Microbiology and Cell Biology, Indian Institute of Science, Bengaluru, Karnataka, India.

出版信息

Nat Microbiol. 2025 May;10(5):1099-1114. doi: 10.1038/s41564-025-01984-y. Epub 2025 Apr 11.

DOI:10.1038/s41564-025-01984-y

PMID:40217128

Abstract

Cell-autonomous immunity prevents intracellular pathogen growth through mechanisms such as ubiquitination and proteasomal targeting of bacteria for degradation. However, how the proteasome eradicates ubiquitinated bacteria has remained unclear. Here we show that host AAA-ATPase, VCP/p97, associates with diverse cytosol-exposed ubiquitinated bacteria (Streptococcus pneumoniae, Salmonella enterica serovar Typhimurium, Streptococcus pyogenes) and requires the ATPase activity in its D2 domain to reduce intracellular bacterial loads. Combining optical trap approaches along with molecular dynamic simulations, in vitro reconstitution and immunogold transmission electron microscopy, we demonstrate that p97 applies mechanical force to extract ubiquitinated surface proteins, BgaA and PspA, from S. pneumoniae cell membranes. This causes extensive membrane lysis and release of cytosolic content, thereby killing the pathogen. Further, p97 also controls S. pneumoniae proliferation in mice, ultimately protecting from fatal sepsis. Overall, we discovered a distinct innate antimicrobial function of p97 that can protect the host against lethal bacterial infections.

摘要

细胞自主免疫通过泛素化和蛋白酶体靶向细菌进行降解等机制来阻止细胞内病原体的生长。然而，蛋白酶体如何根除泛素化细菌仍不清楚。在此，我们表明宿主AAA-ATP酶VCP/p97与多种暴露于胞质溶胶的泛素化细菌（肺炎链球菌、鼠伤寒沙门氏菌、化脓性链球菌）相关联，并且需要其D2结构域中的ATP酶活性来降低细胞内细菌载量。结合光镊技术以及分子动力学模拟、体外重建和免疫金透射电子显微镜技术，我们证明p97施加机械力从肺炎链球菌细胞膜中提取泛素化表面蛋白BgaA和PspA。这会导致广泛的膜裂解和胞质内容物释放，从而杀死病原体。此外，p97还能控制肺炎链球菌在小鼠体内的增殖，最终预防致命性败血症。总体而言，我们发现了p97一种独特的先天性抗菌功能，它可以保护宿主免受致命细菌感染。

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宿主AAA-ATP酶VCP/p97可裂解泛素化的细胞内细菌，作为一种先天性抗菌防御机制。

Host AAA-ATPase VCP/p97 lyses ubiquitinated intracellular bacteria as an innate antimicrobial defence.

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