Sphingolipid metabolic flow controls phosphoinositide turnover at the trans-Golgi network

Serena Capasso; Lucia Sticco; Riccardo Rizzo; Marinella Pirozzi; Domenico Russo; Nina A. Dathan; Felix Campelo; Josse van Galen; Maarit Hölttä-Vuori; Gabriele Turacchio; Angelika Hausser; Vivek Malhotra; Isabelle Riezman; Howard Riezman; Elina Ikonen; Chiara Luberto; Seetharaman Parashuraman; Alberto Luini; Giovanni D'Angelo

doi:10.15252/embj.201696048

Sphingolipid metabolic flow controls phosphoinositide turnover at the trans-Golgi network

Serena Capasso
, Lucia Sticco
, Riccardo Rizzo
, Marinella Pirozzi
, Domenico Russo
, Nina A. Dathan
, Felix Campelo
, Josse van Galen
, Maarit Hölttä-Vuori
, Gabriele Turacchio
, Angelika Hausser
, Vivek Malhotra
, Isabelle Riezman
, Howard Riezman
, Elina Ikonen
, Chiara Luberto
, Seetharaman Parashuraman
, Alberto Luini
, Giovanni D'Angelo

Physiology and Biophysics

IRCCS SDN Istituto di Ricerca Diagnostica e Nucleare - Napoli
National Research Council of Italy
The Barcelona Institute of Science and Technology
Pompeu Fabra University
University of Helsinki
University of Stuttgart
ICREA
University of Geneva

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

70 Scopus citations

Abstract

Sphingolipids are membrane lipids globally required for eukaryotic life. The sphingolipid content varies among endomembranes with pre- and post-Golgi compartments being poor and rich in sphingolipids, respectively. Due to this different sphingolipid content, pre- and post-Golgi membranes serve different cellular functions. The basis for maintaining distinct subcellular sphingolipid levels in the presence of membrane trafficking and metabolic fluxes is only partially understood. Here, we describe a homeostatic regulatory circuit that controls sphingolipid levels at the trans-Golgi network (TGN). Specifically, we show that sphingomyelin production at the TGN triggers a signalling pathway leading to PtdIns(4)P dephosphorylation. Since PtdIns(4)P is required for cholesterol and sphingolipid transport to the trans-Golgi network, PtdIns(4)P consumption interrupts this transport in response to excessive sphingomyelin production. Based on this evidence, we envisage a model where this homeostatic circuit maintains a constant lipid composition in the trans-Golgi network and post-Golgi compartments, thus counteracting fluctuations in the sphingolipid biosynthetic flow.

Original language	English
Pages (from-to)	1736-1754
Number of pages	19
Journal	EMBO Journal
Volume	36
Issue number	12
DOIs	https://doi.org/10.15252/embj.201696048
State	Published - Jun 14 2017

Keywords

PtdIns(4)P
ceramide
lipid territories
lipid-transfer protein
membrane contact sites

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10.15252/embj.201696048

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Capasso, S., Sticco, L., Rizzo, R., Pirozzi, M., Russo, D., Dathan, N. A., Campelo, F., van Galen, J., Hölttä-Vuori, M., Turacchio, G., Hausser, A., Malhotra, V., Riezman, I., Riezman, H., Ikonen, E., Luberto, C., Parashuraman, S., Luini, A., & D'Angelo, G. (2017). Sphingolipid metabolic flow controls phosphoinositide turnover at the trans-Golgi network. EMBO Journal, 36(12), 1736-1754. https://doi.org/10.15252/embj.201696048

@article{c848e8905a2e4045be49905dc6ac03da,

title = "Sphingolipid metabolic flow controls phosphoinositide turnover at the trans-Golgi network",

abstract = "Sphingolipids are membrane lipids globally required for eukaryotic life. The sphingolipid content varies among endomembranes with pre- and post-Golgi compartments being poor and rich in sphingolipids, respectively. Due to this different sphingolipid content, pre- and post-Golgi membranes serve different cellular functions. The basis for maintaining distinct subcellular sphingolipid levels in the presence of membrane trafficking and metabolic fluxes is only partially understood. Here, we describe a homeostatic regulatory circuit that controls sphingolipid levels at the trans-Golgi network (TGN). Specifically, we show that sphingomyelin production at the TGN triggers a signalling pathway leading to PtdIns(4)P dephosphorylation. Since PtdIns(4)P is required for cholesterol and sphingolipid transport to the trans-Golgi network, PtdIns(4)P consumption interrupts this transport in response to excessive sphingomyelin production. Based on this evidence, we envisage a model where this homeostatic circuit maintains a constant lipid composition in the trans-Golgi network and post-Golgi compartments, thus counteracting fluctuations in the sphingolipid biosynthetic flow.",

keywords = "PtdIns(4)P, ceramide, lipid territories, lipid-transfer protein, membrane contact sites",

author = "Serena Capasso and Lucia Sticco and Riccardo Rizzo and Marinella Pirozzi and Domenico Russo and Dathan, \{Nina A.\} and Felix Campelo and \{van Galen\}, Josse and Maarit H{\"o}ltt{\"a}-Vuori and Gabriele Turacchio and Angelika Hausser and Vivek Malhotra and Isabelle Riezman and Howard Riezman and Elina Ikonen and Chiara Luberto and Seetharaman Parashuraman and Alberto Luini and Giovanni D'Angelo",

note = "Publisher Copyright: {\textcopyright} 2017 The Authors",

year = "2017",

month = jun,

day = "14",

doi = "10.15252/embj.201696048",

language = "English",

volume = "36",

pages = "1736--1754",

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Capasso, S, Sticco, L, Rizzo, R, Pirozzi, M, Russo, D, Dathan, NA, Campelo, F, van Galen, J, Hölttä-Vuori, M, Turacchio, G, Hausser, A, Malhotra, V, Riezman, I, Riezman, H, Ikonen, E, Luberto, C, Parashuraman, S, Luini, A & D'Angelo, G 2017, 'Sphingolipid metabolic flow controls phosphoinositide turnover at the trans-Golgi network', EMBO Journal, vol. 36, no. 12, pp. 1736-1754. https://doi.org/10.15252/embj.201696048

TY - JOUR

T1 - Sphingolipid metabolic flow controls phosphoinositide turnover at the trans-Golgi network

AU - Capasso, Serena

AU - Sticco, Lucia

AU - Rizzo, Riccardo

AU - Pirozzi, Marinella

AU - Russo, Domenico

AU - Dathan, Nina A.

AU - Campelo, Felix

AU - van Galen, Josse

AU - Hölttä-Vuori, Maarit

AU - Turacchio, Gabriele

AU - Hausser, Angelika

AU - Malhotra, Vivek

AU - Riezman, Isabelle

AU - Riezman, Howard

AU - Ikonen, Elina

AU - Luberto, Chiara

AU - Parashuraman, Seetharaman

AU - Luini, Alberto

AU - D'Angelo, Giovanni

PY - 2017/6/14

Y1 - 2017/6/14

N2 - Sphingolipids are membrane lipids globally required for eukaryotic life. The sphingolipid content varies among endomembranes with pre- and post-Golgi compartments being poor and rich in sphingolipids, respectively. Due to this different sphingolipid content, pre- and post-Golgi membranes serve different cellular functions. The basis for maintaining distinct subcellular sphingolipid levels in the presence of membrane trafficking and metabolic fluxes is only partially understood. Here, we describe a homeostatic regulatory circuit that controls sphingolipid levels at the trans-Golgi network (TGN). Specifically, we show that sphingomyelin production at the TGN triggers a signalling pathway leading to PtdIns(4)P dephosphorylation. Since PtdIns(4)P is required for cholesterol and sphingolipid transport to the trans-Golgi network, PtdIns(4)P consumption interrupts this transport in response to excessive sphingomyelin production. Based on this evidence, we envisage a model where this homeostatic circuit maintains a constant lipid composition in the trans-Golgi network and post-Golgi compartments, thus counteracting fluctuations in the sphingolipid biosynthetic flow.

AB - Sphingolipids are membrane lipids globally required for eukaryotic life. The sphingolipid content varies among endomembranes with pre- and post-Golgi compartments being poor and rich in sphingolipids, respectively. Due to this different sphingolipid content, pre- and post-Golgi membranes serve different cellular functions. The basis for maintaining distinct subcellular sphingolipid levels in the presence of membrane trafficking and metabolic fluxes is only partially understood. Here, we describe a homeostatic regulatory circuit that controls sphingolipid levels at the trans-Golgi network (TGN). Specifically, we show that sphingomyelin production at the TGN triggers a signalling pathway leading to PtdIns(4)P dephosphorylation. Since PtdIns(4)P is required for cholesterol and sphingolipid transport to the trans-Golgi network, PtdIns(4)P consumption interrupts this transport in response to excessive sphingomyelin production. Based on this evidence, we envisage a model where this homeostatic circuit maintains a constant lipid composition in the trans-Golgi network and post-Golgi compartments, thus counteracting fluctuations in the sphingolipid biosynthetic flow.

KW - PtdIns(4)P

KW - ceramide

KW - lipid territories

KW - lipid-transfer protein

KW - membrane contact sites

UR - https://www.scopus.com/pages/publications/85019259421

U2 - 10.15252/embj.201696048

DO - 10.15252/embj.201696048

M3 - Article

C2 - 28495678

AN - SCOPUS:85019259421

SN - 0261-4189

VL - 36

SP - 1736

EP - 1754

JO - EMBO Journal

JF - EMBO Journal

IS - 12

ER -

Sphingolipid metabolic flow controls phosphoinositide turnover at the trans-Golgi network

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Keywords

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