PLoS Biology (May 2024)

Structure and activity of the septal peptidoglycan hydrolysis machinery crucial for bacterial cell division.

  • Yatian Chen,
  • Jiayue Gu,
  • Biao Yang,
  • Lili Yang,
  • Jie Pang,
  • Qinghua Luo,
  • Yirong Li,
  • Danyang Li,
  • Zixin Deng,
  • Changjiang Dong,
  • Haohao Dong,
  • Zhengyu Zhang

DOI
https://doi.org/10.1371/journal.pbio.3002628
Journal volume & issue
Vol. 22, no. 5
p. e3002628

Abstract

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The peptidoglycan (PG) layer is a critical component of the bacterial cell wall and serves as an important target for antibiotics in both gram-negative and gram-positive bacteria. The hydrolysis of septal PG (sPG) is a crucial step of bacterial cell division, facilitated by FtsEX through an amidase activation system. In this study, we present the cryo-EM structures of Escherichia coli FtsEX and FtsEX-EnvC in the ATP-bound state at resolutions of 3.05 Å and 3.11 Å, respectively. Our PG degradation assays in E. coli reveal that the ATP-bound conformation of FtsEX activates sPG hydrolysis of EnvC-AmiB, whereas EnvC-AmiB alone exhibits autoinhibition. Structural analyses indicate that ATP binding induces conformational changes in FtsEX-EnvC, leading to significant differences from the apo state. Furthermore, PG degradation assays of AmiB mutants confirm that the regulation of AmiB by FtsEX-EnvC is achieved through the interaction between EnvC-AmiB. These findings not only provide structural insight into the mechanism of sPG hydrolysis and bacterial cell division, but also have implications for the development of novel therapeutics targeting drug-resistant bacteria.