Hundeep Kaur scite author profile

Antibiotics with novel modes of action targetingGram-negative bacteria are needed to resolve the antimicrobial resistance crisis 1-3 . These pathogens are protected by an additional outer membrane, rendering proteins on the cell surface attractive drug targets 4,5 . The natural compound darobactin targets the insertase BamA 6 , the central unit of the essential BAM complex, which facilitates folding and insertion of outer membrane proteins 7-13 . BamA lacks a typical catalytic center, and it is not obvious how a small molecule such as darobactin might inhibit its function. Here, we resolve the darobactin mode of action at the atomic level by a combination of cryo-electron microscopy, X-ray crystallography, native mass spectrometry, in vivo experiments and molecular dynamics simulations. Two unique cyclizations pre-organize the darobactin peptide in a rigid βstrand conformation. This creates a mimic of the recognition signal of native substrates with a superior ability to bind to the lateral gate of BamA. Upon binding, darobactin replaces a lipid molecule from the lateral gate to use the membrane environment as an extended binding pocket. Because the interaction between darobactin and BamA is largely mediated by backbone contacts, it is particularly robust against potential resistance mutations. Our results identify the lateral gate as a functional hotspot in BamA and open the path for rational design of antibiotics targeting this bacterial Achilles heel.The BAM complex was purified from E. coli outer membranes (OMs), reconstituted in n-dodecyl maltoside (DDM) micelles and incubated with darobactin A (darobactin). The cryo-EM reconstruction at 3.0 Å resolution revealed the position of a bound darobactin molecule (Fig. 1a, Extended Data Fig. 1, Supplementary Table 1). BamA features a lateral gate facing the membrane, formed by strands β1 and β16 through a kink in strand β16 at residue Gly807.Previous work showed that substrate-free BamA exists in two interchanging conformations with the gate either being open or being closed by the β16-strand straightening to zip up against

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Coupled ATPase-adenylate kinase activity in ABC transporters

Kaur

Lakatos-Karoly

Vogel

et al. 2016

Nat Commun

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ATP-binding cassette (ABC) transporters, a superfamily of integral membrane proteins, catalyse the translocation of substrates across the cellular membrane by ATP hydrolysis. Here we demonstrate by nucleotide turnover and binding studies based on 31P solid-state NMR spectroscopy that the ABC exporter and lipid A flippase MsbA can couple ATP hydrolysis to an adenylate kinase activity, where ADP is converted into AMP and ATP. Single-point mutations reveal that both ATPase and adenylate kinase mechanisms are associated with the same conserved motifs of the nucleotide-binding domain. Based on these results, we propose a model for the coupled ATPase-adenylate kinase mechanism, involving the canonical and an additional nucleotide-binding site. We extend these findings to other prokaryotic ABC exporters, namely LmrA and TmrAB, suggesting that the coupled activities are a general feature of ABC exporters.

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Multisystem inflammation and susceptibility to viral infections in human ZNFX1 deficiency

Vavassori

Chou

Faletti

et al. 2021

Journal of Allergy and Clinical Immunology

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Identification of conformation-selective nanobodies against the membrane protein insertase BamA by an integrated structural biology approach

et al. 2019

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Hundeep Kaur

A new antibiotic selectively kills Gram-negative pathogens

The antibiotic darobactin mimics a β-strand to inhibit outer membrane insertase

Coupled ATPase-adenylate kinase activity in ABC transporters

Multisystem inflammation and susceptibility to viral infections in human ZNFX1 deficiency

Identification of conformation-selective nanobodies against the membrane protein insertase BamA by an integrated structural biology approach

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