An In silico Algorithm for Identifying Amino Acids that Stabilize Oligomeric Membrane-Toxin Pores through Electrostatic Interactions

Pore forming toxins (PFTs) are a class of proteins which have specifically evolved to form unregulated pores in target plasma membranes, and represent the single largest class of bacterial virulence factors. With increasingly prevalent antibiotic-resistant bacterial strains, next generation therapies are being developed to target bacterial PFTs rather than the pathogens themselves. However, structure-based design of inhibitors that could block pore formation are hampered by a paucity of structural information about pore intermediates. On similar lines, observations of the inter-subunit interfaces in fully-formed pore complexes to identify druggable residues, whose interactions could potentially be blocked to hamper pore formation or destabilize pore assemblies, are often limited because of the presence of a large number of protein-protein interaction sites across pore inter-subunit interfaces. Narrowing down the list of plausible target residues requires a quantitative assessment of their contributions towards pore stability, which cannot be gleaned from a single, static, crystal or cryo-EM pore structure. We overcome this limitation by developing an in silico screening algorithm that employs fully atomistic molecular dynamics simulations coupled with knowledge-based screening to identify residues engaged in persistent and stabilizing electrostatic interactions across inter-subunit interfaces in membrane-inserted PFT pores. Application of this algorithm to prototypical α-PFT (cytolysin A) and β-PFT (α-hemolysin) pores yielded a small predicted subset of highly interacting residues, blocking of which could destabilize pore complexes as shown in previous mutagenesis experiments for some of these predicted residues. The algorithm also yielded a novel set of residues in both cytolysin A and α-hemolysin pores for which no mutagenesis and stability data exists to the best of our knowledge, and therefore could serve as hitherto un-recognised potential targets for PFT inhibitors. The algorithm worked equally well for both α and β-PFT pores, and could thus be potentially applicable to all pores with known structures to generate a database of pore-destabilizing mutations, which could then serve as a starting point for experimental validation and structure-based PFT-inhibitor design.

• Publication year

  2019

• Venue

  bioRxiv

• Publication date

  2019-07-28

• Fields of study

  Biology, Chemistry

• Identifiers
  DOI 10.1101/716969
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar

• No claims are published for this paper.

• No concepts are published for this paper.

• Correlated protein conformational states and membrane dynamics during attack by pore-forming toxins

  2019cited by this paper
• Membrane deformation and layer-by-layer peeling of giant vesicles induced by the pore-forming toxin pneumolysin.

  2019cited by this paper
• Pharmacological Targeting of Pore-Forming Toxins as Adjunctive Therapy for Invasive Bacterial Infection

  2018influential reference
• Cholesterol promotes Cytolysin A activity by stabilizing the intermediates during pore formation

  2018influential reference
• Pneumolysin-Dependent Calpain Activation and Interleukin-1α Secretion in Macrophages Infected with Streptococcus pneumoniae

  2017cited by this paper
• Transmembrane oligomeric intermediates of pore forming toxin Cytolysin A determine leakage kinetics

  2017cited by this paper
• Host-to-Host Transmission of Streptococcus pneumoniae Is Driven by Its Inflammatory Toxin, Pneumolysin.

  2017cited by this paper
• Comparison of coarse-grained (MARTINI) and atomistic molecular dynamics simulations of $$\alpha $$α and $$\beta $$β toxin nanopores in lipid membranes

  2017cited by this paper
• Salt-bridge networks within globular and disordered proteins: characterizing trends for designable interactions

  2017cited by this paper
• In Situ Capture of Bacterial Toxins for Antivirulence Vaccination

  2017cited by this paper
• Assessing the Structure and Stability of Transmembrane Oligomeric Intermediates of an α-Helical Toxin.

  2017cited by this paper
• The role of interfacial lipids in stabilizing membrane protein oligomers

  2017cited by this paper
• pH controlled gating of toxic protein pores by dendrimers.

  2016cited by this paper
• Targeting Alpha Toxin and ClfA with a Multimechanistic Monoclonal-Antibody-Based Approach for Prophylaxis of Serious Staphylococcus aureus Disease

  2016cited by this paper
• Protective efficacy of a novel alpha hemolysin subunit vaccine (AT62) against Staphylococcus aureus skin and soft tissue infections.

  2016cited by this paper
• Non-antibiotic treatments for bacterial diseases in an era of progressive antibiotic resistance

  2016cited by this paper
• Capturing the Membrane-Triggered Conformational Transition of an α-Helical Pore-Forming Toxin.

  2016cited by this paper
• Exploiting dominant‐negative toxins to combat Staphylococcus aureus pathogenesis

  2016cited by this paper
• A new approach to toxin neutralization in Staphylococcus aureus therapy

  2016cited by this paper
• An intermolecular electrostatic interaction controls the prepore-to-pore transition in a cholesterol-dependent cytolysin

  2015cited by this paper
• Structural basis for self-assembly of a cytolytic pore lined by protein and lipid

  2015cited by this paper
• Pore-forming toxins: ancient, but never really out of fashion

  2015cited by this paper
• Visualization of Lipid Membrane Reorganization Induced by a Pore-Forming Toxin Using High-Speed Atomic Force Microscopy.

  2015cited by this paper
• Drug discovery: Leaving no stone unturned

  2014cited by this paper
• g_mmpbsa - A GROMACS Tool for High-Throughput MM-PBSA Calculations

  2014cited by this paper
• Designing inhibitors of anthrax toxin

  2014cited by this paper
• Engineered liposomes sequester bacterial exotoxins and protect from severe invasive infections in mice

  2014cited by this paper
• Interactions of Lipids and Detergents with a Viral Ion Channel Protein: Molecular Dynamics Simulation Studies

  2014cited by this paper
• Evaluating the Strength of Salt Bridges: A Comparison of Current Biomolecular Force Fields

  2014cited by this paper
• Molecular mechanisms of antibiotic resistance

  2014cited by this paper
• Structure-Function Analysis of Heterodimer Formation, Oligomerization, and Receptor Binding of the Staphylococcus aureus Bi-component Toxin LukGH*

  2014cited by this paper
• Listeria monocytogenes exploits efferocytosis to promote cell-to-cell spread

  2014cited by this paper
• Structural Basis for Recognition of the Pore-Forming Toxin Intermedilysin by Human Complement Receptor CD59

  2013cited by this paper
• A biomimetic nanosponge that absorbs pore-forming toxins

  2013cited by this paper
• GROMACS 4.5: a high-throughput and highly parallel open source molecular simulation toolkit

  2013cited by this paper
• Role of Pore-Forming Toxins in Bacterial Infectious Diseases

  2013influential reference
• Mechanism of action and in vivo efficacy of a human-derived antibody against Staphylococcus aureus α-hemolysin.

  2013cited by this paper
• Tuning the size and properties of ClyA nanopores assisted by directed evolution.

  2013influential reference
• An engineered ClyA nanopore detects folded target proteins by selective external association and pore entry.

  2012cited by this paper
• Derivation and Systematic Validation of a Refined All-Atom Force Field for Phosphatidylcholine Lipids

  2012cited by this paper
• Maximum Allowed Solvent Accessibilites of Residues in Proteins

  2012influential reference
• New currency for old rope: from coiled-coil assemblies to α-helical barrels.

  2012cited by this paper
• Optimizing Protein-Solvent Force Fields to Reproduce Intrinsic Conformational Preferences of Model Peptides.

  2011cited by this paper
• Salt bridges: Geometrically specific, designable interactions

  2011cited by this paper
• OPM database and PPM web server: resources for positioning of proteins in membranes

  2011cited by this paper
• Biopolymers in nanopores: challenges and opportunities

  2011cited by this paper
• Rapid assembly of a multimeric membrane protein pore.

  2011cited by this paper
• Improved side-chain torsion potentials for the Amber ff99SB protein force field

  2010cited by this paper
• A simple definition of structural regions in proteins and its use in analyzing interface evolution.

  2010cited by this paper
• Statins protect against fulminant pneumococcal infection and cytolysin toxicity in a mouse model of sickle cell disease.

  2010cited by this paper
• Prevention and Treatment of Staphylococcus aureus Pneumonia with a β-Cyclodextrin Derivative

  2009cited by this paper
• Molecular mechanism of pore formation by actinoporins.

  2009cited by this paper
• Continuous base identification for single-molecule nanopore DNA sequencing.

  2009cited by this paper
• Emerging roles for lipids in shaping membrane-protein function

  2009cited by this paper
• The structure of a cytolytic α-helical toxin pore reveals its assembly mechanism

  2009cited by this paper
• Salt Bridges and Conformational Flexibility: Effect on Protein Stability

  2008cited by this paper
• Structural properties of ionic detergent aggregates: a large-scale molecular dynamics study of sodium dodecyl sulfate.

  2007cited by this paper
• Canonical sampling through velocity rescaling.

  2007cited by this paper
• Inference of macromolecular assemblies from crystalline state.

  2007cited by this paper
• Structure of the Hemolysin E (HlyE, ClyA, and SheA) Channel in Its Membrane-bound Form*

  2006cited by this paper
• Statistical pattern matching facilitates the design of polyvalent inhibitors of anthrax and cholera toxins

  2006cited by this paper
• Pore-forming protein toxins: from structure to function.

  2005influential reference
• Spontaneous formation of detergent micelles around the outer membrane protein OmpX.

  2005cited by this paper
• ConSurf 2005: the projection of evolutionary conservation scores of residues on protein structures

  2005cited by this paper
• WebLogo: a sequence logo generator.

  2004cited by this paper
• Protein stabilization by salt bridges: concepts, experimental approaches and clarification of some misunderstandings

  2004cited by this paper
• Close‐Range Electrostatic Interactions in Proteins

  2002cited by this paper
• Electrostatics of nanosystems: Application to microtubules and the ribosome

  2001cited by this paper
• The Weak Hydrogen Bond

  2001cited by this paper
• The Weak Hydrogen Bond: In Structural Chemistry and Biology

  1999cited by this paper
• Molecular Mechanisms

  1999cited by this paper
• α-Hemolysin fromStaphylococcus aureus:An Archetype of β-Barrel, Channel-Forming Toxins

  1998cited by this paper
• LINCS: A linear constraint solver for molecular simulations

  1997cited by this paper
• VMD: visual molecular dynamics.

  1996cited by this paper
• The double cubic lattice method: Efficient approaches to numerical integration of surface area and volume and to dot surface contouring of molecular assemblies

  1995cited by this paper
• Restoration of pore-forming activity in staphylococcal alpha-hemolysin by targeted covalent modification.

  1995influential reference
• Key Residues for Membrane Binding, Oligomerization, and Pore Forming Activity of Staphylococcal α-Hemolysin Identified by Cysteine Scanning Mutagenesis and Targeted Chemical Modification (*)

  1995influential reference
• Are buried salt bridges important for protein stability and conformational specificity?

  1995cited by this paper
• Interactions between Residues in Staphylococcal α-Hemolysin Revealed by Reversion Mutagenesis (*)

  1995cited by this paper
• Site-directed mutagenesis of the alpha-toxin gene of Staphylococcus aureus: role of histidines in toxin activity in vitro and in a murine model

  1994cited by this paper
• Particle mesh Ewald: An N⋅log(N) method for Ewald sums in large systems

  1993cited by this paper
• Ion-pairs in proteins.

  1983cited by this paper
• Comparison of simple potential functions for simulating liquid water

  1983cited by this paper
• Polymorphic transitions in single crystals: A new molecular dynamics method

  1981cited by this paper

• Comparisons of the genome of SARS-CoV-2 and those of other betacoronaviruses

  2020cites this paper