Abstract
ABSTRACTThe envelope of Gram-negative bacteria is an essential compartment that constitutes a protective and permeability barrier between the cell and its environment. The envelope also hosts the cell wall, a mesh-like structure made of peptidoglycan (PG) that determines cell shape and provides osmotic protection. Since the PG must grow and divide in a cell-cycle-synchronized manner, its synthesis and remodeling are tightly regulated. Here, we discovered that PG homeostasis is intimately linked to the levels of activation of the Cpx system, an envelope stress response system traditionally viewed as being involved in protein quality control in the envelope. We first show that Cpx is activated when PG integrity is challenged and that this activation provides protection to cells exposed to antibiotics inhibiting PG synthesis. By rerouting the outer membrane lipoprotein NlpE, a known Cpx activator, to a different envelope subcompartment, we managed to manipulate Cpx activation levels. We found that Cpx overactivation leads to aberrant cellular morphologies, to an increased sensitivity to β-lactams, and to dramatic division and growth defects, consistent with a loss of PG homeostasis. Remarkably, these phenotypes were largely abrogated by the deletion of ldtD, a Cpx-induced gene involved in noncanonical PG cross-linkage, suggesting that this transpeptidase is an important link between PG homeostasis and the Cpx system. Altogether our data show that fine-tuning of an envelope quality control system constitutes an important layer of regulation of the highly organized cell wall structure.
Highlights
The envelope of Gram-negative bacteria is an essential compartment that constitutes a protective and permeability barrier between the cell and its environment
The envelope consists of two concentric membranes, the inner membrane (IM) and outer membrane (OM), which are separated by the periplasm, a compartment containing a continuous monolayer of peptidoglycan (PG)
To formally examine if perturbation of PG synthesis induces the Cpx response, we measured the activity of the cpxP promoter (PcpxP), a reliable reporter of the response regulator CpxR [5, 7], following addition of antibiotics targeting PG assembly
Summary
The envelope of Gram-negative bacteria is an essential compartment that constitutes a protective and permeability barrier between the cell and its environment. IMPORTANCE The envelope of Gram-negative bacteria is essential for viability It includes the cell wall, a continuous polymer of peptidoglycan (PG) that determines cell morphology and protects against osmotic stress. Cpx is a major ESRS that detects and manages the accumulation of misfolded proteins in the envelope of Escherichia coli We found that this protein quality control system plays a fundamental role in the regulation of PG assembly. The envelope of Gram-negative bacteria is a complex multilayered compartment that is essential for viability and plays a crucial defensive role against various environmental assaults It constitutes a major target for current antibiotics. A classical two-component system forms the core machinery of the Cpx pathway: inducing signals trigger a phosphotransfer between the sensor histidine kinase CpxA at the IM and the cytoplasmic response regulator CpxR, which controls the transcription of a vast regulon [7, 8]. PG synthesis and remodeling are tightly regulated in space and time, in part via the assembly of complex multiprotein machineries known as the elongasome and the divisome [1]
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