Abstract
FtsEX is a bacterial ABC transporter that regulates the activity of periplasmic peptidoglycan amidases via its interaction with the murein hydrolase activator, EnvC. In Escherichia coli, FtsEX is required to separate daughter cells after cell division and for viability in low-osmolarity media. Both the ATPase activity of FtsEX and its periplasmic interaction with EnvC are required for amidase activation, but the process itself is poorly understood. Here we present the 2.1 Å structure of the FtsX periplasmic domain in complex with its periplasmic partner, EnvC. The EnvC-FtsX periplasmic domain complex has a 1-to-2 stoichiometry with two distinct FtsX-binding sites located within an antiparallel coiled coil domain of EnvC. Residues involved in amidase activation map to a previously identified groove in the EnvC LytM domain that is here found to be occluded by a "restraining arm" suggesting a self-inhibition mechanism. Mutational analysis, combined with bacterial two-hybrid screens and in vivo functional assays, verifies the FtsEX residues required for EnvC binding and experimentally test a proposed mechanism for amidase activation. We also define a predicted link between FtsEX and integrity of the outer membrane. Both the ATPase activity of FtsEX and its periplasmic interaction with EnvC are required for resistance to membrane-attacking antibiotics and detergents to which E. coli would usually be considered intrinsically resistant. These structural and functional data provide compelling mechanistic insight into FtsEX-mediated regulation of EnvC and its downstream control of periplasmic peptidoglycan amidases.
Highlights
FtsEX is a type VII ABC transporter [1, 2] belonging to the ABC3 superfamily [3]
We demonstrate a role for FtsEX in maintaining intrinsic resistance to antibiotics and detergents that depends on both its ATPase activity and periplasmic interaction with EnvC
A 2.1 Å Crystal Structure of EnvC Bound to the FtsX Periplasmic Domain
Summary
FtsEX is a type VII ABC transporter [1, 2] belonging to the ABC3 superfamily [3]. Distant relatives of FtsEX include the MacB efflux pump [1], LolCDE lipoprotein trafficking machinery [1, 4], PvdT pyoverdine recycling system [5], and BceAB family of antibiotic resistance proteins [6]. In E. coli, two of the three amidases responsible (AmiA and AmiB) are regulated by a single periplasmic activator (EnvC) that is, itself, controlled by an atypical ABC transporter (FtsEX) tethered to the cytoplasmic septal Z-ring. The data support a molecular mechanism for amidase control where mechanotransmission-driven conformational change in FtsEX is propagated through the EnvC coiled coil domain to release an autoinhibitory element from within its LytM domain. These results have important implications for understanding FtsEX function in both cell division and outer membrane integrity
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