Maria Szomek scite author profile

Niemann-Pick type C (NPC) proteins are essential for sterol homeostasis, believed to drive sterol integration into the vacuolar/lysosomal membrane before redistribution to other cellular membranes. Here, using a combination of crystallography, cryo-electron microscopy, biochemical and in vivo studies on the Saccharomyces cerevisiae NPC system, NCR1/NPC2, we present a framework for sterol membrane integration. Sterols are transferred between hydrophobic pockets of vacuolar NPC2 and membrane-protein NCR1. NCR1 has its N terminal domain (NTD) positioned to deliver a sterol to a tunnel connecting NTD to the luminal membrane leaflet 50 Å away. A sterol is caught inside this tunnel during transport, and a proton-relay network of charged residues in the transmembrane region is linked to this tunnel supporting a proton-driven transport mechanism. We propose a model for sterol integration which clarifies the role of NPC proteins in this essential eukaryotic pathway and which rationalizes mutations in patients with Niemann-Pick disease Type C.

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Ergosterol is mainly located in the cytoplasmic leaflet of the yeast plasma membrane

Solanko

Sullivan

Sere

et al. 2018

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Transbilayer lipid asymmetry is a fundamental characteristic of the eukaryotic cell plasma membrane (PM). While PM phospholipid asymmetry is well documented, the transbilayer distribution of PM sterols such as mammalian cholesterol and yeast ergosterol is not reliably known. We now report that sterols are asymmetrically distributed across the yeast PM, with the majority (~80%) located in the cytoplasmic leaflet. By exploiting the sterol-auxotrophic hem1Δ yeast strain we obtained cells in which endogenous ergosterol was quantitatively replaced with dehydroergosterol (DHE), a closely related fluorescent sterol that functionally and accurately substitutes for ergosterol in vivo. Using fluorescence spectrophotometry and microscopy we found that <20% of DHE fluorescence was quenched when the DHE-containing cells were exposed to membrane-impermeant collisional quenchers (spin-labeled phosphatidylcholine and trinitrobenzene sulfonic acid). Efficient quenching was seen only after the cells were disrupted by glass-bead lysis or repeated freeze-thaw to allow quenchers access to the cell interior. The extent of quenching was unaffected by treatments that deplete cellular ATP levels, collapse the PM electrochemical gradient or affect the actin cytoskeleton. However, alterations in PM phospholipid asymmetry in cells lacking phospholipid flippases resulted in a more symmetric transbilayer distribution of sterol. Similarly, an increase in the quenchable pool of DHE was observed when PM sphingolipid levels were reduced by treating cells with myriocin. We deduce that sterols comprise up to ~45% of all inner leaflet lipids in the PM, a result that necessitates revision of current models of the architecture of the PM lipid bilayer.

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Niemann Pick C2 protein enables cholesterol transfer from endo-lysosomes to the plasma membrane for efflux by shedding of extracellular vesicles

Juhl

Lund

Jensen

et al. 2021

Chemistry and Physics of Lipids

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Natamycin sequesters ergosterol and interferes with substrate transport by the lysine transporter Lyp1 from yeast

Szomek

Reinholdt²,

Walther³

et al. 2022

Biochimica et Biophysica Acta (BBA) - Biomembranes

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Niemann-Pick C2 protein regulates sterol transport between plasma membrane and late endosomes in human fibroblasts

Berzina

Solanko

Mehadi

et al. 2018

Chemistry and Physics of Lipids

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Maria Szomek

Structural Insight into Eukaryotic Sterol Transport through Niemann-Pick Type C Proteins

Ergosterol is mainly located in the cytoplasmic leaflet of the yeast plasma membrane

Niemann Pick C2 protein enables cholesterol transfer from endo-lysosomes to the plasma membrane for efflux by shedding of extracellular vesicles

Natamycin sequesters ergosterol and interferes with substrate transport by the lysine transporter Lyp1 from yeast

Niemann-Pick C2 protein regulates sterol transport between plasma membrane and late endosomes in human fibroblasts

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