PtuA and PtuB assemble into an inflammasome-like oligomer for anti-phage defense

Yuanyuan Li; Zhangfei Shen; Mengyuan Zhang; Xiao Yuan Yang; Sean P. Cleary; Jiale Xie; Ila A. Marathe; Marius Kostelic; Jacelyn Greenwald; Anthony D. Rish; Vicki H. Wysocki; Chong Chen; Qiang Chen; Tian Min Fu; Yamei Yu

doi:10.1038/s41594-023-01172-8

PtuA and PtuB assemble into an inflammasome-like oligomer for anti-phage defense

Yuanyuan Li, Zhangfei Shen, Mengyuan Zhang, Xiao Yuan Yang, Sean P. Cleary, Jiale Xie, Ila A. Marathe, Marius Kostelic, Jacelyn Greenwald, Anthony D. Rish, Vicki H. Wysocki, Chong Chen, Qiang Chen, Tian Min Fu, Yamei Yu

Research output: Contribution to journal › Article › peer-review

Abstract

Escherichia coli Septu system, an anti-phage defense system, comprises two components: PtuA and PtuB. PtuA contains an ATPase domain, while PtuB is predicted to function as a nuclease. Here we show that PtuA and PtuB form a stable complex with a 6:2 stoichiometry. Cryo-electron microscopy structure of PtuAB reveals a distinctive horseshoe-like configuration. PtuA adopts a hexameric arrangement, organized as an asymmetric trimer of dimers, contrasting the ring-like structure by other ATPases. Notably, the three pairs of PtuA dimers assume distinct conformations and fulfill unique roles in recruiting PtuB. Our functional assays have further illuminated the importance of the oligomeric assembly of PtuAB in anti-phage defense. Moreover, we have uncovered that ATP molecules can directly bind to PtuA and inhibit the activities of PtuAB. Together, the assembly and function of the Septu system shed light on understanding other ATPase-containing systems in bacterial immunity.

Original language	English
Pages (from-to)	413-423
Number of pages	11
Journal	Nature Structural and Molecular Biology
Volume	31
Issue number	3
DOIs	https://doi.org/10.1038/s41594-023-01172-8
State	Published - Mar 2024

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title = "PtuA and PtuB assemble into an inflammasome-like oligomer for anti-phage defense",

abstract = "Escherichia coli Septu system, an anti-phage defense system, comprises two components: PtuA and PtuB. PtuA contains an ATPase domain, while PtuB is predicted to function as a nuclease. Here we show that PtuA and PtuB form a stable complex with a 6:2 stoichiometry. Cryo-electron microscopy structure of PtuAB reveals a distinctive horseshoe-like configuration. PtuA adopts a hexameric arrangement, organized as an asymmetric trimer of dimers, contrasting the ring-like structure by other ATPases. Notably, the three pairs of PtuA dimers assume distinct conformations and fulfill unique roles in recruiting PtuB. Our functional assays have further illuminated the importance of the oligomeric assembly of PtuAB in anti-phage defense. Moreover, we have uncovered that ATP molecules can directly bind to PtuA and inhibit the activities of PtuAB. Together, the assembly and function of the Septu system shed light on understanding other ATPase-containing systems in bacterial immunity.",

author = "Yuanyuan Li and Zhangfei Shen and Mengyuan Zhang and Yang, {Xiao Yuan} and Cleary, {Sean P.} and Jiale Xie and Marathe, {Ila A.} and Marius Kostelic and Jacelyn Greenwald and Rish, {Anthony D.} and Wysocki, {Vicki H.} and Chong Chen and Qiang Chen and Fu, {Tian Min} and Yamei Yu",

note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive licence to Springer Nature America, Inc. 2024.",

year = "2024",

month = mar,

doi = "10.1038/s41594-023-01172-8",

language = "English",

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T1 - PtuA and PtuB assemble into an inflammasome-like oligomer for anti-phage defense

AU - Li, Yuanyuan

AU - Shen, Zhangfei

AU - Zhang, Mengyuan

AU - Yang, Xiao Yuan

AU - Cleary, Sean P.

AU - Xie, Jiale

AU - Marathe, Ila A.

AU - Kostelic, Marius

AU - Greenwald, Jacelyn

AU - Rish, Anthony D.

AU - Wysocki, Vicki H.

AU - Chen, Chong

AU - Chen, Qiang

AU - Fu, Tian Min

AU - Yu, Yamei

PY - 2024/3

Y1 - 2024/3

N2 - Escherichia coli Septu system, an anti-phage defense system, comprises two components: PtuA and PtuB. PtuA contains an ATPase domain, while PtuB is predicted to function as a nuclease. Here we show that PtuA and PtuB form a stable complex with a 6:2 stoichiometry. Cryo-electron microscopy structure of PtuAB reveals a distinctive horseshoe-like configuration. PtuA adopts a hexameric arrangement, organized as an asymmetric trimer of dimers, contrasting the ring-like structure by other ATPases. Notably, the three pairs of PtuA dimers assume distinct conformations and fulfill unique roles in recruiting PtuB. Our functional assays have further illuminated the importance of the oligomeric assembly of PtuAB in anti-phage defense. Moreover, we have uncovered that ATP molecules can directly bind to PtuA and inhibit the activities of PtuAB. Together, the assembly and function of the Septu system shed light on understanding other ATPase-containing systems in bacterial immunity.

AB - Escherichia coli Septu system, an anti-phage defense system, comprises two components: PtuA and PtuB. PtuA contains an ATPase domain, while PtuB is predicted to function as a nuclease. Here we show that PtuA and PtuB form a stable complex with a 6:2 stoichiometry. Cryo-electron microscopy structure of PtuAB reveals a distinctive horseshoe-like configuration. PtuA adopts a hexameric arrangement, organized as an asymmetric trimer of dimers, contrasting the ring-like structure by other ATPases. Notably, the three pairs of PtuA dimers assume distinct conformations and fulfill unique roles in recruiting PtuB. Our functional assays have further illuminated the importance of the oligomeric assembly of PtuAB in anti-phage defense. Moreover, we have uncovered that ATP molecules can directly bind to PtuA and inhibit the activities of PtuAB. Together, the assembly and function of the Septu system shed light on understanding other ATPase-containing systems in bacterial immunity.

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PtuA and PtuB assemble into an inflammasome-like oligomer for anti-phage defense

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