Binding of interferon reduces the force of unfolding for interferon receptor 1

Silvia G. Chuartzman; Reinat Nevo; Sharon Waichman; Dalit Shental; Jacob Piehler; Yaakov Levy; Ziv Reich; Ruti Kapon

doi:10.1371/journal.pone.0175413

Binding of interferon reduces the force of unfolding for interferon receptor 1

Silvia G. Chuartzman, Reinat Nevo, Sharon Waichman, Dalit Shental, Jacob Piehler, Yaakov Levy, Ziv Reich, Ruti Kapon

Weizmann Institute of Science

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

Abstract

Differential signaling of the type I interferon receptor (IFNAR) has been correlated with the ability of its subunit, IFNAR1, to differentially recognize a large spectrum of different ligands, which involves intricate conformational re-arrangements of multiple interacting domains. To shed light onto the structural determinants governing ligand recognition, we compared the force-induced unfolding of the IFNAR1 ectodomain when bound to interferon and when free, using the atomic force microscope and steered molecular dynamics simulations. Unexpectedly, we find that IFNAR1 is easier to mechanically unfold when bound to interferon than when free. Analysis of the structures indicated that the origin of the reduction in unfolding forces is a conformational change in IFNAR1 induced by ligand binding.

Original language	English
Article number	e0175413
Journal	PLoS ONE
Volume	12
Issue number	4
DOIs	https://doi.org/10.1371/journal.pone.0175413
State	Published - 12 Apr 2017

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abstract = "Differential signaling of the type I interferon receptor (IFNAR) has been correlated with the ability of its subunit, IFNAR1, to differentially recognize a large spectrum of different ligands, which involves intricate conformational re-arrangements of multiple interacting domains. To shed light onto the structural determinants governing ligand recognition, we compared the force-induced unfolding of the IFNAR1 ectodomain when bound to interferon and when free, using the atomic force microscope and steered molecular dynamics simulations. Unexpectedly, we find that IFNAR1 is easier to mechanically unfold when bound to interferon than when free. Analysis of the structures indicated that the origin of the reduction in unfolding forces is a conformational change in IFNAR1 induced by ligand binding.",

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AU - Chuartzman, Silvia G.

AU - Nevo, Reinat

AU - Waichman, Sharon

AU - Shental, Dalit

AU - Piehler, Jacob

AU - Levy, Yaakov

AU - Reich, Ziv

AU - Kapon, Ruti

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AB - Differential signaling of the type I interferon receptor (IFNAR) has been correlated with the ability of its subunit, IFNAR1, to differentially recognize a large spectrum of different ligands, which involves intricate conformational re-arrangements of multiple interacting domains. To shed light onto the structural determinants governing ligand recognition, we compared the force-induced unfolding of the IFNAR1 ectodomain when bound to interferon and when free, using the atomic force microscope and steered molecular dynamics simulations. Unexpectedly, we find that IFNAR1 is easier to mechanically unfold when bound to interferon than when free. Analysis of the structures indicated that the origin of the reduction in unfolding forces is a conformational change in IFNAR1 induced by ligand binding.

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Binding of interferon reduces the force of unfolding for interferon receptor 1

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