Concerted Protonation of Key Histidines Triggers Membrane Interaction of the Diphtheria Toxin T Domain

Perier, Aurélie; Chassaing, Anne; Raffestin, Stéphanie; Pichard, Sylvain; Masella, Michel; Ménèz, Andre; Forge, Vincent; Chenal, Alexandre; Gillet, Daniel

doi:10.1074/jbc.m703392200

Cited by 62 publications

(81 citation statements)

References 21 publications

(52 reference statements)

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“…This has been shown also for the isolated T domain of other toxins (25,28). We compared the permeabilization activity of the T proteins on anionic and neutral LUV.…”

Section: Penetration Of the T Domain Into The Membrane Is Modulated Bmentioning

confidence: 99%

Membrane Interaction of Botulinum Neurotoxin A Translocation (T) Domain

Galloux

Vitrac

Montagner

et al. 2008

Journal of Biological Chemistry

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The translocation of the catalytic domain through the membrane of the endosome to the cell cytoplasm is a key step of intoxication by botulinum neurotoxin (BoNT). This step is mediated by the translocation (T) domain upon endosome acidification, although the mechanism of interaction of the T domain with the membrane is still poorly understood. Using physicochemical approaches and spectroscopic methods, we studied the interaction of the BoNT/A T domain with the membrane as a function of pH. We found that the interaction with membranes does not involve major secondary or tertiary structural changes, as reported for other toxins like diphtheria toxin. The T domain becomes insoluble around its pI value and then penetrates into the membrane. At that stage, the T domain becomes able to permeabilize lipid vesicles. This occurs for pH values lower than 5.5, in agreement with the pH encountered by the toxin within endosomes. Electrostatic interactions are also important for the process. The role of the so-called belt region was investigated with four variant proteins presenting different lengths of the N-extremity of the T domain. We observed that this part of the T domain, which contains numerous negatively charged residues, limits the protein-membrane interaction. Indeed, interaction with the membrane of the protein deleted of this extremity takes place for higher pH values than for the entire T domain. Overall, the data suggest that acidification eliminates repulsive electrostatic interactions between the T domain and the membrane, allowing its penetration into the membrane without triggering detectable structural changes.

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“…This has been shown also for the isolated T domain of other toxins (25,28). We compared the permeabilization activity of the T proteins on anionic and neutral LUV.…”

Section: Penetration Of the T Domain Into The Membrane Is Modulated Bmentioning

confidence: 99%

Membrane Interaction of Botulinum Neurotoxin A Translocation (T) Domain

Galloux

Vitrac

Montagner

et al. 2008

Journal of Biological Chemistry

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“…PE and DT contain translocation domains that undergo a pH dependent conformational change in the endosome that results in membrane insertion and cytoplasmic release of the catalytic domains. 198,199 Ricin partially unfolds to translocate across the ER membrane via the Sec61p translocon, which is responsible for transfer of misfolded ER proteins back to the cytosol for degradation in proteasomes (ER-associated degradation, ERAD). 200 The translocation is relatively inefficient, but only a few active toxin enzyme molecules delivered to the cytosol are needed to kill the cell.…”

Section: ©2 0 1 1 L a N D E S B I O S C I E N C E D O N O T D I S Tmentioning

confidence: 99%

Targeting antibodies to the cytoplasm

Marschall

Frenzel

Schirrmann

et al. 2011

mAbs

110

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“…LUV Permeabilization Assay-Leakage of LUV content was assayed with ANTS (fluorescent probe) and DPX (quencher) entrapped in vesicles (41). LUVs (10 mM lipids) were prepared from a mixture of POPC, DOPE, and cholesterol (6:3:0 or 6:3:1) containing 20 mM ANTS and 60 mM DPX.…”

mentioning

confidence: 99%

Identification of a Region That Assists Membrane Insertion and Translocation of the Catalytic Domain of Bordetella pertussis CyaA Toxin

Karst

Barker

Devi

et al. 2012

Journal of Biological Chemistry

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Background: Translocation of the CyaA toxin across plasma membrane is still poorly understood. Results: The region 375-485 is involved in membrane destabilization in vitro and required for cell intoxication. Conclusion:The region 375-485 is crucial for membrane insertion and translocation of the catalytic domain of CyaA. Significance: These results provide new insights on the early stages of the cell intoxication process.

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Concerted Protonation of Key Histidines Triggers Membrane Interaction of the Diphtheria Toxin T Domain

Cited by 62 publications

References 21 publications

Membrane Interaction of Botulinum Neurotoxin A Translocation (T) Domain

Membrane Interaction of Botulinum Neurotoxin A Translocation (T) Domain

Targeting antibodies to the cytoplasm

Identification of a Region That Assists Membrane Insertion and Translocation of the Catalytic Domain of Bordetella pertussis CyaA Toxin

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