Conformational changes in the Niemann–Pick type C1 protein NCR1 drive sterol translocation

Kelly M. Frayn; Emil Dedic; Lynette Nel; Anastasiia Bohush; Esben Olesen; Katja Thaysen; Daniel Wüstner; David L. Stokes; Bjørn Panyella Pedersen

doi:10.1073/pnas.2315575121

Conformational changes in the Niemann–Pick type C1 protein NCR1 drive sterol translocation

Kelly M. Frayn, Emil Dedic, Lynette Nel, Anastasiia Bohush, Esben Olesen, Katja Thaysen, Daniel Wüstner, David L. Stokes^*, Bjørn Panyella Pedersen

^*Kontaktforfatter

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

Abstract

Niemann–Pick type C1 (NPC1, named NCR1 in yeast) proteins play a critical role in sterol homeostasis by facilitating the integration of sterols into membranes of acidic organelles like lysosomes and vacuoles. The inner surface of these organelles’ membranes is shielded by the glycocalyx. Here, we provide evidence that a glycocalyx is present in vacuoles from Saccharomyces cerevisiae and characterize conformational changes in NCR1 that we believe are responsible for the transport of sterols. Specifically, our structures suggest a transport model where sterol translocation is linked to proton-driven changes in the transmembrane region. This work clarifies how NPC proteins function and has broad implications both for lysosomal storage disorders and for mechanisms employed by the Resistance–Nodulation–Division superfamily.

Originalsprog	Engelsk
Artikelnummer	e2315575121
Tidsskrift	PNAS
Vol/bind	121
Udgave nummer	15
Antal sider	11
ISSN	0027-8424
DOI	https://doi.org/10.1073/pnas.2315575121
Status	Udgivet - 3. apr. 2024

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10.1073/pnas.2315575121Licens: CC BY-NC-ND

Open Access VersionForlagets udgivne version, 7,72 MBLicens: CC BY-NC-ND

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title = "Conformational changes in the Niemann–Pick type C1 protein NCR1 drive sterol translocation",

abstract = "The membrane protein Niemann-Pick type C1 (NPC1, named NCR1 in yeast) is central to sterol homeostasis in eukaryotes. Saccharomyces cerevisiae NCR1 is localized to the vacuolar membrane, where it is suggested to carry sterols across the protective glycocalyx and deposit them into the vacuolar membrane. However, documentation of a vacuolar glycocalyx in fungi is lacking, and the mechanism for sterol translocation has remained unclear. Here, we provide evidence supporting the presence of a glycocalyx in isolated S. cerevisiae vacuoles and report four cryo-EM structures of NCR1 in two distinct conformations, named tense and relaxed. These two conformations illustrate the movement of sterols through a tunnel formed by the luminal domains, thus bypassing the barrier presented by the glycocalyx. Based on these structures and on comparison with other members of the Resistance-Nodulation-Division (RND) superfamily, we propose a transport model that links changes in the luminal domains with a cycle of protonation and deprotonation within the transmembrane region of the protein. Our model suggests that NPC proteins work by a generalized RND mechanism where the proton motive force drives conformational changes in the transmembrane domains that are allosterically coupled to luminal/extracellular domains to promote sterol transport.",

keywords = "Niemann–Pick type C protein, cryo-EM, glycocalyx, sterol uptake, vacuole, Sterols/metabolism, Niemann-Pick C1 Protein/metabolism, Membrane Glycoproteins/metabolism, Saccharomyces cerevisiae/genetics, Carrier Proteins/metabolism, Natural Cytotoxicity Triggering Receptor 1/metabolism",

author = "Frayn, {Kelly M.} and Emil Dedic and Lynette Nel and Anastasiia Bohush and Esben Olesen and Katja Thaysen and Daniel W{\"u}stner and Stokes, {David L.} and {Panyella Pedersen}, Bj{\o}rn",

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T1 - Conformational changes in the Niemann–Pick type C1 protein NCR1 drive sterol translocation

AU - Frayn, Kelly M.

AU - Dedic, Emil

AU - Nel, Lynette

AU - Bohush, Anastasiia

AU - Olesen, Esben

AU - Thaysen, Katja

AU - Wüstner, Daniel

AU - Stokes, David L.

AU - Panyella Pedersen, Bjørn

PY - 2024/4/3

Y1 - 2024/4/3

N2 - The membrane protein Niemann-Pick type C1 (NPC1, named NCR1 in yeast) is central to sterol homeostasis in eukaryotes. Saccharomyces cerevisiae NCR1 is localized to the vacuolar membrane, where it is suggested to carry sterols across the protective glycocalyx and deposit them into the vacuolar membrane. However, documentation of a vacuolar glycocalyx in fungi is lacking, and the mechanism for sterol translocation has remained unclear. Here, we provide evidence supporting the presence of a glycocalyx in isolated S. cerevisiae vacuoles and report four cryo-EM structures of NCR1 in two distinct conformations, named tense and relaxed. These two conformations illustrate the movement of sterols through a tunnel formed by the luminal domains, thus bypassing the barrier presented by the glycocalyx. Based on these structures and on comparison with other members of the Resistance-Nodulation-Division (RND) superfamily, we propose a transport model that links changes in the luminal domains with a cycle of protonation and deprotonation within the transmembrane region of the protein. Our model suggests that NPC proteins work by a generalized RND mechanism where the proton motive force drives conformational changes in the transmembrane domains that are allosterically coupled to luminal/extracellular domains to promote sterol transport.

AB - The membrane protein Niemann-Pick type C1 (NPC1, named NCR1 in yeast) is central to sterol homeostasis in eukaryotes. Saccharomyces cerevisiae NCR1 is localized to the vacuolar membrane, where it is suggested to carry sterols across the protective glycocalyx and deposit them into the vacuolar membrane. However, documentation of a vacuolar glycocalyx in fungi is lacking, and the mechanism for sterol translocation has remained unclear. Here, we provide evidence supporting the presence of a glycocalyx in isolated S. cerevisiae vacuoles and report four cryo-EM structures of NCR1 in two distinct conformations, named tense and relaxed. These two conformations illustrate the movement of sterols through a tunnel formed by the luminal domains, thus bypassing the barrier presented by the glycocalyx. Based on these structures and on comparison with other members of the Resistance-Nodulation-Division (RND) superfamily, we propose a transport model that links changes in the luminal domains with a cycle of protonation and deprotonation within the transmembrane region of the protein. Our model suggests that NPC proteins work by a generalized RND mechanism where the proton motive force drives conformational changes in the transmembrane domains that are allosterically coupled to luminal/extracellular domains to promote sterol transport.

KW - Niemann–Pick type C protein

KW - cryo-EM

KW - glycocalyx

KW - sterol uptake

KW - vacuole

KW - Sterols/metabolism

KW - Niemann-Pick C1 Protein/metabolism

KW - Membrane Glycoproteins/metabolism

KW - Saccharomyces cerevisiae/genetics

KW - Carrier Proteins/metabolism

KW - Natural Cytotoxicity Triggering Receptor 1/metabolism

U2 - 10.1073/pnas.2315575121

DO - 10.1073/pnas.2315575121

M3 - Journal article

C2 - 38568972

SN - 0027-8424

VL - 121

JO - PNAS

JF - PNAS

IS - 15

M1 - e2315575121

ER -

Conformational changes in the Niemann–Pick type C1 protein NCR1 drive sterol translocation

Abstract

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