Cédric Simonot scite author profile

The mechanism by which newly synthesized sterols are transported from their site of synthesis, the endoplasmic reticulum (ER), to the sterol-enriched plasma membrane (PM) is not fully understood. Studies in mammalian cells suggest that newly synthesized cholesterol is transported to the PM in Golgi-bypassing vesicles and/or via a nonvesicular process. Using the yeast Saccharomyces cerevisiae as a model system, we now rule out an essential role for known vesicular transport pathways in transporting the major yeast sterol, ergosterol, from its site of synthesis to the PM. We use a cyclodextrin-based sterol capture assay to show that transport of newly synthesized ergosterol to the PM is unaltered in cells defective in Sec18p, a protein required for almost all intracellular vesicular trafficking events; we also show that transport is not blocked in cells that are defective in formation of transport vesicles at the ER or in vesicle fusion with the PM. Our data suggest instead that transport occurs by equilibration (t(1/2) approximately 10-15 min) of ER and PM ergosterol pools via a bidirectional, nonvesicular process that is saturated in wild-type exponentially growing yeast. To reconcile an equilibration process with the high ergosterol concentration of the PM relative to ER, we note that a large fraction of PM ergosterol is found condensed with sphingolipids in membrane rafts that coexist with free sterol. We propose that the concentration of free sterol is similar in the PM and ER and that only free (nonraft) sterol molecules have access to a nonvesicular transport pathway that connects the two organelles. This is the first description of biosynthetic sterol transport in yeast.

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Niemann–Pick type C disease: importance of N-glycosylation sites for function and cellular location of the NPC2 protein

Chikh

Vey

Simonot

et al. 2004

Molecular Genetics and Metabolism

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Sub‐mitochondrial localization of the catalytic subunit of pyruvate dehydrogenase phosphatase

et al. 1997

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Using a specific antibody against the PDP catalytic subunit, PDPc, precise localization of this subunit in mitochondria was performed. Sub-fractionation of purified mitochondria by controlled swelling processes led to the isolation of outer membranes, matrix space and inner membrane vesicles which were purified on a sucrose density gradient. In this study, we demonstrated that PDPc was not recovered as a soluble protein in the matrix space but was associated with the inner membrane. Moreover, Triton X-114 phase partitioning performed on inner membranes showed that PDPc behaved both as a hydrophilic and as a hydrophobic protein, thus suggesting two different forms of this enzyme.

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Involvement of mitochondrial contact sites in the subcellular compartmentalization of phospholipid biosynthetic enzymes.

Ardail¹,

Gasnier²,

Lermé³

et al. 1993

Journal of Biological Chemistry

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Cédric Simonot

Transport of Newly Synthesized Sterol to the Sterol-Enriched Plasma Membrane Occurs via Nonvesicular Equilibration

Niemann–Pick type C disease: importance of N-glycosylation sites for function and cellular location of the NPC2 protein

Sub‐mitochondrial localization of the catalytic subunit of pyruvate dehydrogenase phosphatase

Involvement of mitochondrial contact sites in the subcellular compartmentalization of phospholipid biosynthetic enzymes.

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