Sterol and pH Interdependence in the Binding, Oligomerization, and Pore Formation of Listeriolysin O

Bavdek, Andrej; Gekara, Nelson O.; Priselac, Dragan; Gutiérrez-Aguirre, Ion; Darji, Ayub; Chakraborty, Trinad; Maček, Peter; Lakey, Jeremy H.; Weiß, Siegfried; Anderluh, Gregor

doi:10.1021/bi602497g

Cited by 87 publications

(103 citation statements)

References 67 publications

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“…2). SPR has been applied to the study of membrane binding and integration of a number of pore-forming proteins and peptides (27,28), including BAX (22). Using this technique it is not necessary to label or chemically modify the protein under study.…”

Section: Detergent-activated Fluorescently Labeled Bax⌬c Canmentioning

confidence: 99%

Detergent-activated BAX Protein Is a Monomer

Ivashyna

García‐Sáez

Ries

et al. 2009

Journal of Biological Chemistry

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BAX is a pro-apoptotic member of the BCL-2 protein family. At the onset of apoptosis, monomeric, cytoplasmic BAX is activated and translocates to the outer mitochondrial membrane, where it forms an oligomeric pore. The chemical mechanism of BAX activation is controversial, and several in vitro and in vivo methods of its activation are known. One of the most commonly used in vitro methods is activation withdetergents,suchasn-octylglucoside.DuringBAXactivationwith n-octyl glucoside, it has been shown that BAX forms high molecular weight complexes that are larger than the combined molecular weight of BAX monomer and one detergent micelle. These large complexes have been ascribed to the oligomerization of BAX prior to its membrane insertion and pore formation. This is in contrast to the in vivo studies that suggest that active BAX inserts into the outer mitochondrial membrane as a monomer and then undergoes oligomerization. Here, to simultaneously determine the molecular weight and the number of BAX proteins per BAX-detergent micelle during detergent activation, we have used an approach that combines two single-molecule sensitivity technique, fluorescence correlation spectroscopy, and fluorescence-intensity distribution analysis. We have tested a range of detergents as follows: n-octyl glucoside, dodecyl maltoside, Triton X-100, Tween 20, 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonic acid, and cholic acid. With these detergents we observe that BAX is a monomer before, during, and after interaction with micelles. We conclude that detergent activation of BAX is not congruent with oligomerization and that in physiologic buffer conditions BAX can assume two stable monomeric conformations, one inactive and one active.

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Section: Detergent-activated Fluorescently Labeled Bax⌬c Canmentioning

confidence: 99%

Detergent-activated BAX Protein Is a Monomer

Ivashyna

García‐Sáez

Ries

et al. 2009

Journal of Biological Chemistry

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“…These trigger rapid and irreversible denaturation of the structure at neutral pH at temperatures above 30°C. However, it has been recently shown that binding and permeabilization of cells is possible at neutral pH, provided the cholesterol content of the membrane is sufficiently high (10).…”

Section: Isteriolysin O (Llo)mentioning

confidence: 99%

IFN-β Increases Listeriolysin O-Induced Membrane Permeabilization and Death of Macrophages

Zwaferink

Stockinger

Hazemi

et al. 2008

The Journal of Immunology

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Type I IFN (IFN-I) signaling is detrimental to cells and mice infected with Listeria monocytogenes. In this study, we investigate the impact of IFN-I on the activity of listeriolysin O (LLO), a pore-forming toxin and virulence protein released by L. monocytogenes. Treatment of macrophages with IFN-β increased the ability of sublytic LLO concentrations to cause transient permeability of the plasma membrane. At higher LLO concentrations, IFN-β enhanced the complete breakdown of membrane integrity and cell death. This activity of IFN-β required Stat1. Perturbation of the plasma membrane by LLO resulted in activation of the p38MAPK pathway. IFN-β pretreatment enhanced LLO-mediated signaling through this pathway, consistent with its ability to increase membrane damage. p38MAPK activation in response to LLO was independent of TLR4, a putative LLO receptor, and inhibition of p38MAPK neither enhanced nor prevented LLO-induced death. IFN-β caused cells to express increased amounts of caspase 1 and to produce a detectable caspase 1 cleavage product after LLO treatment. Contrasting recent reports with another pore-forming toxin, this pathway did not aid cell survival as caspase1-deficient cells were equally sensitive to lysis by LLO. Key lipogenesis enzymes were suppressed in IFN-β-treated cells, which may exacerbate the membrane damage caused by LLO.

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“…Initially identified as a major virulence factor that is critical for intracellular survival (18,19), LLO mediates the escape of L. monocytogenes from the endocytic vacuole to the cytosol, where the bacterium replicates (18,20). While LLO displays optimal activity at an acidic pH, which facilitates the disruption of the endocytic vacuole, it is still active at neutral pH in the extracellular environment (3,21). Indeed, LLO is released by L. monocytogenes in the extracellular environment (22,23), eliciting various host cell responses.…”

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confidence: 99%

Fluxes of Ca ²⁺ and K ⁺ Are Required for the Listeriolysin O-Dependent Internalization Pathway of Listeria monocytogenes

Vadia

Seveau

2014

Infect Immun

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Sterol and pH Interdependence in the Binding, Oligomerization, and Pore Formation of Listeriolysin O

Cited by 87 publications

References 67 publications

Detergent-activated BAX Protein Is a Monomer

Detergent-activated BAX Protein Is a Monomer

IFN-β Increases Listeriolysin O-Induced Membrane Permeabilization and Death of Macrophages

Fluxes of Ca ²⁺ and K ⁺ Are Required for the Listeriolysin O-Dependent Internalization Pathway of Listeria monocytogenes

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Sterol and pH Interdependence in the Binding, Oligomerization, and Pore Formation of Listeriolysin O

Cited by 87 publications

References 67 publications

Detergent-activated BAX Protein Is a Monomer

Detergent-activated BAX Protein Is a Monomer

IFN-β Increases Listeriolysin O-Induced Membrane Permeabilization and Death of Macrophages

Fluxes of Ca 2+ and K + Are Required for the Listeriolysin O-Dependent Internalization Pathway of Listeria monocytogenes

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Fluxes of Ca ²⁺ and K ⁺ Are Required for the Listeriolysin O-Dependent Internalization Pathway of Listeria monocytogenes