The cell division protein ZapE is targeted by the antibiotic aztreonam to induce cell filamentation in Escherichia coli.

Bacterial division is mediated by a protein complex called the Z-ring, and Z-ring associated protein E (ZapE) is a Z-ring-associated protein that acts as its negative regulator. In the present study, we show that treatment of Escherichia coli with the antibiotic aztreonam stabilized the Z-ring, induced filamentation, and reduced viability, with similar phenotypes being observed in ZapE deletion strains. Aztreonam treatment decreased ZapE expression, and the overexpression of ZapE rescued filamentous morphology significantly and viability partially. However, overexpression of filamentous temperature sensitive I (FtsI), a known target of aztreonam, could not rescue the filamentation. Interestingly, overexpression of ZapE and FtsI together was able to rescue both filamentous morphology and cell viability. Using in silico and biochemical analyses, we show that aztreonam directly interacts with ZapE. Our study suggests that the inhibitory effects of aztreonam in E. coli could be mediated by targeting ZapE.