Deciphering the Molecular Details for the Binding of the Prion Protein to Main Ganglioside GM1 of Neuronal Membranes

Narinder Sanghera; Bruno E F S Correia; Joana R S Correia; Christian Ludwig; Sonya Agarwal; Hironori K. Nakamura; Kazuo Kuwata; Eric Samain; Andrew C. Gill; Boyan B. Bonev; Teresa J T Pinheiro

doi:10.1016/j.chembiol.2011.08.016

Deciphering the Molecular Details for the Binding of the Prion Protein to Main Ganglioside GM1 of Neuronal Membranes

Narinder Sanghera, Bruno E F S Correia, Joana R S Correia, Christian Ludwig, Sonya Agarwal, Hironori K. Nakamura, Kazuo Kuwata, Eric Samain, Andrew C. Gill, Boyan B. Bonev, Teresa J T Pinheiro

Metabolism and Systems Research

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

33 Citations (Scopus)

Abstract

The prion protein (PrP) resides in lipid rafts in vivo, and lipids modulate misfolding of the protein to infectious isoforms. Here we demonstrate that binding of recombinant PrP to model raft membranes requires the presence of ganglioside GM1. A combination of liquid- and solid-state NMR revealed the binding sites of PrP to the saccharide head group of GM1. The binding epitope for GM1 was mapped to the folded C-terminal domain of PrP, and docking simulations identified key residues in the C-terminal region of helix C and the loop between strand S2 and helix B. Crucially, this region of PrP is linked to prion resistance in vivo, and structural changes caused by lipid binding in this region may explain the requirement for lipids in the generation of infectious prions in vitro.

Original language	English
Pages (from-to)	1422-1431
Number of pages	10
Journal	Chemistry & Biology
Volume	18
Issue number	11
DOIs	https://doi.org/10.1016/j.chembiol.2011.08.016
Publication status	Published - 22 Nov 2011

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http://www.mendeley.com/research/deciphering-molecular-details-binding-prion-protein-main-ganglioside-gm1-neuronal-membranes

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Sanghera, N., Correia, B. E. F. S., Correia, J. R. S., Ludwig, C., Agarwal, S., Nakamura, H. K., Kuwata, K., Samain, E., Gill, A. C., Bonev, B. B., & Pinheiro, T. J. T. (2011). Deciphering the Molecular Details for the Binding of the Prion Protein to Main Ganglioside GM1 of Neuronal Membranes. Chemistry & Biology, 18(11), 1422-1431. https://doi.org/10.1016/j.chembiol.2011.08.016

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abstract = "The prion protein (PrP) resides in lipid rafts in vivo, and lipids modulate misfolding of the protein to infectious isoforms. Here we demonstrate that binding of recombinant PrP to model raft membranes requires the presence of ganglioside GM1. A combination of liquid- and solid-state NMR revealed the binding sites of PrP to the saccharide head group of GM1. The binding epitope for GM1 was mapped to the folded C-terminal domain of PrP, and docking simulations identified key residues in the C-terminal region of helix C and the loop between strand S2 and helix B. Crucially, this region of PrP is linked to prion resistance in vivo, and structural changes caused by lipid binding in this region may explain the requirement for lipids in the generation of infectious prions in vitro.",

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AU - Sanghera, Narinder

AU - Correia, Bruno E F S

AU - Correia, Joana R S

AU - Ludwig, Christian

AU - Agarwal, Sonya

AU - Nakamura, Hironori K.

AU - Kuwata, Kazuo

AU - Samain, Eric

AU - Gill, Andrew C.

AU - Bonev, Boyan B.

AU - Pinheiro, Teresa J T

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N2 - The prion protein (PrP) resides in lipid rafts in vivo, and lipids modulate misfolding of the protein to infectious isoforms. Here we demonstrate that binding of recombinant PrP to model raft membranes requires the presence of ganglioside GM1. A combination of liquid- and solid-state NMR revealed the binding sites of PrP to the saccharide head group of GM1. The binding epitope for GM1 was mapped to the folded C-terminal domain of PrP, and docking simulations identified key residues in the C-terminal region of helix C and the loop between strand S2 and helix B. Crucially, this region of PrP is linked to prion resistance in vivo, and structural changes caused by lipid binding in this region may explain the requirement for lipids in the generation of infectious prions in vitro.

AB - The prion protein (PrP) resides in lipid rafts in vivo, and lipids modulate misfolding of the protein to infectious isoforms. Here we demonstrate that binding of recombinant PrP to model raft membranes requires the presence of ganglioside GM1. A combination of liquid- and solid-state NMR revealed the binding sites of PrP to the saccharide head group of GM1. The binding epitope for GM1 was mapped to the folded C-terminal domain of PrP, and docking simulations identified key residues in the C-terminal region of helix C and the loop between strand S2 and helix B. Crucially, this region of PrP is linked to prion resistance in vivo, and structural changes caused by lipid binding in this region may explain the requirement for lipids in the generation of infectious prions in vitro.

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DO - 10.1016/j.chembiol.2011.08.016

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JO - Chemistry & Biology

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ER -

Deciphering the Molecular Details for the Binding of the Prion Protein to Main Ganglioside GM1 of Neuronal Membranes

Abstract

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