Characterization of the interaction between the Sec61 translocon complex and ppαF using optical tweezers

Luka Robeson; Nathalie Casanova-Morales; Francesca Burgos-Bravo; Hilda M. Alfaro-Valdés; Robert Lesch; Carolina Ramírez-Álvarez; Mauricio Valdivia-Delgado; Marcela Vega; Ricardo A. Matute; Randy Schekman; Christian A.M. Wilson

doi:10.1002/pro.4996

Characterization of the interaction between the Sec61 translocon complex and ppαF using optical tweezers

Luka Robeson, Nathalie Casanova-Morales, Francesca Burgos-Bravo, Hilda M. Alfaro-Valdés, Robert Lesch, Carolina Ramírez-Álvarez, Mauricio Valdivia-Delgado, Marcela Vega, Ricardo A. Matute, Randy Schekman, Christian A.M. Wilson

Research output: Contribution to journal › Article › peer-review

Abstract

The Sec61 translocon allows the translocation of secretory preproteins from the cytosol to the endoplasmic reticulum lumen during polypeptide biosynthesis. These proteins possess an N-terminal signal peptide (SP) which docks at the translocon. SP mutations can abolish translocation and cause diseases, suggesting an essential role for this SP/Sec61 interaction. However, a detailed biophysical characterization of this binding is still missing. Here, optical tweezers force spectroscopy was used to characterize the kinetic parameters of the dissociation process between Sec61 and the SP of prepro-alpha-factor. The unbinding parameters including off-rate constant and distance to the transition state were obtained by fitting rupture force data to Dudko–Hummer–Szabo models. Interestingly, the translocation inhibitor mycolactone increases the off-rate and accelerates the SP/Sec61 dissociation, while also weakening the interaction. Whereas the translocation deficient mutant containing a single point mutation in the SP abolished the specificity of the SP/Sec61 binding, resulting in an unstable interaction. In conclusion, we characterize quantitatively the dissociation process between the signal peptide and the translocon, and how the unbinding parameters are modified by a translocation inhibitor.

Original language	English
Article number	e4996
Journal	Protein Science
Volume	33
Issue number	6
DOIs	https://doi.org/10.1002/pro.4996
State	Published - Jun 2024
Externally published	Yes

Keywords

endoplasmic reticulum
optical tweezers
post-translational translocation
prepro-alpha-factor
protein translocation
protein–protein interaction
signal peptide
single-molecule biophysics

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10.1002/pro.4996

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Robeson, L., Casanova-Morales, N., Burgos-Bravo, F., Alfaro-Valdés, H. M., Lesch, R., Ramírez-Álvarez, C., Valdivia-Delgado, M., Vega, M., Matute, R. A., Schekman, R., & Wilson, C. A. M. (2024). Characterization of the interaction between the Sec61 translocon complex and ppαF using optical tweezers. Protein Science, 33(6), Article e4996. https://doi.org/10.1002/pro.4996

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title = "Characterization of the interaction between the Sec61 translocon complex and ppαF using optical tweezers",

abstract = "The Sec61 translocon allows the translocation of secretory preproteins from the cytosol to the endoplasmic reticulum lumen during polypeptide biosynthesis. These proteins possess an N-terminal signal peptide (SP) which docks at the translocon. SP mutations can abolish translocation and cause diseases, suggesting an essential role for this SP/Sec61 interaction. However, a detailed biophysical characterization of this binding is still missing. Here, optical tweezers force spectroscopy was used to characterize the kinetic parameters of the dissociation process between Sec61 and the SP of prepro-alpha-factor. The unbinding parameters including off-rate constant and distance to the transition state were obtained by fitting rupture force data to Dudko–Hummer–Szabo models. Interestingly, the translocation inhibitor mycolactone increases the off-rate and accelerates the SP/Sec61 dissociation, while also weakening the interaction. Whereas the translocation deficient mutant containing a single point mutation in the SP abolished the specificity of the SP/Sec61 binding, resulting in an unstable interaction. In conclusion, we characterize quantitatively the dissociation process between the signal peptide and the translocon, and how the unbinding parameters are modified by a translocation inhibitor.",

keywords = "endoplasmic reticulum, optical tweezers, post-translational translocation, prepro-alpha-factor, protein translocation, protein–protein interaction, signal peptide, single-molecule biophysics",

author = "Luka Robeson and Nathalie Casanova-Morales and Francesca Burgos-Bravo and Alfaro-Vald{\'e}s, {Hilda M.} and Robert Lesch and Carolina Ram{\'i}rez-{\'A}lvarez and Mauricio Valdivia-Delgado and Marcela Vega and Matute, {Ricardo A.} and Randy Schekman and Wilson, {Christian A.M.}",

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year = "2024",

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doi = "10.1002/pro.4996",

language = "English",

volume = "33",

journal = "Protein Science",

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T1 - Characterization of the interaction between the Sec61 translocon complex and ppαF using optical tweezers

AU - Robeson, Luka

AU - Casanova-Morales, Nathalie

AU - Burgos-Bravo, Francesca

AU - Alfaro-Valdés, Hilda M.

AU - Lesch, Robert

AU - Ramírez-Álvarez, Carolina

AU - Valdivia-Delgado, Mauricio

AU - Vega, Marcela

AU - Matute, Ricardo A.

AU - Schekman, Randy

AU - Wilson, Christian A.M.

PY - 2024/6

Y1 - 2024/6

N2 - The Sec61 translocon allows the translocation of secretory preproteins from the cytosol to the endoplasmic reticulum lumen during polypeptide biosynthesis. These proteins possess an N-terminal signal peptide (SP) which docks at the translocon. SP mutations can abolish translocation and cause diseases, suggesting an essential role for this SP/Sec61 interaction. However, a detailed biophysical characterization of this binding is still missing. Here, optical tweezers force spectroscopy was used to characterize the kinetic parameters of the dissociation process between Sec61 and the SP of prepro-alpha-factor. The unbinding parameters including off-rate constant and distance to the transition state were obtained by fitting rupture force data to Dudko–Hummer–Szabo models. Interestingly, the translocation inhibitor mycolactone increases the off-rate and accelerates the SP/Sec61 dissociation, while also weakening the interaction. Whereas the translocation deficient mutant containing a single point mutation in the SP abolished the specificity of the SP/Sec61 binding, resulting in an unstable interaction. In conclusion, we characterize quantitatively the dissociation process between the signal peptide and the translocon, and how the unbinding parameters are modified by a translocation inhibitor.

AB - The Sec61 translocon allows the translocation of secretory preproteins from the cytosol to the endoplasmic reticulum lumen during polypeptide biosynthesis. These proteins possess an N-terminal signal peptide (SP) which docks at the translocon. SP mutations can abolish translocation and cause diseases, suggesting an essential role for this SP/Sec61 interaction. However, a detailed biophysical characterization of this binding is still missing. Here, optical tweezers force spectroscopy was used to characterize the kinetic parameters of the dissociation process between Sec61 and the SP of prepro-alpha-factor. The unbinding parameters including off-rate constant and distance to the transition state were obtained by fitting rupture force data to Dudko–Hummer–Szabo models. Interestingly, the translocation inhibitor mycolactone increases the off-rate and accelerates the SP/Sec61 dissociation, while also weakening the interaction. Whereas the translocation deficient mutant containing a single point mutation in the SP abolished the specificity of the SP/Sec61 binding, resulting in an unstable interaction. In conclusion, we characterize quantitatively the dissociation process between the signal peptide and the translocon, and how the unbinding parameters are modified by a translocation inhibitor.

KW - endoplasmic reticulum

KW - optical tweezers

KW - post-translational translocation

KW - prepro-alpha-factor

KW - protein translocation

KW - protein–protein interaction

KW - signal peptide

KW - single-molecule biophysics

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DO - 10.1002/pro.4996

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VL - 33

JO - Protein Science

JF - Protein Science

IS - 6

M1 - e4996

ER -

Characterization of the interaction between the Sec61 translocon complex and ppαF using optical tweezers

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Keywords

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