Orm family proteins mediate sphingolipid homeostasis

David K Breslow; Sean R Collins; Bernd Bodenmiller; Ruedi Aebersold; Kai Simons; Andrej Shevchenko; Christer S Ejsing; Jonathan S Weissman

doi:10.1038/nature08787

Orm family proteins mediate sphingolipid homeostasis

David K Breslow, Sean R Collins, Bernd Bodenmiller, Ruedi Aebersold, Kai Simons, Andrej Shevchenko, Christer S Ejsing, Jonathan S Weissman

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

Despite the essential roles of sphingolipids both as structural components of membranes and critical signalling molecules, we have a limited understanding of how cells sense and regulate their levels. Here we reveal the function in sphingolipid metabolism of the ORM genes (known as ORMDL genes in humans)-a conserved gene family that includes ORMDL3, which has recently been identified as a potential risk factor for childhood asthma. Starting from an unbiased functional genomic approach in Saccharomyces cerevisiae, we identify Orm proteins as negative regulators of sphingolipid synthesis that form a conserved complex with serine palmitoyltransferase, the first and rate-limiting enzyme in sphingolipid production. We also define a regulatory pathway in which phosphorylation of Orm proteins relieves their inhibitory activity when sphingolipid production is disrupted. Changes in ORM gene expression or mutations to their phosphorylation sites cause dysregulation of sphingolipid metabolism. Our work identifies the Orm proteins as critical mediators of sphingolipid homeostasis and raises the possibility that sphingolipid misregulation contributes to the development of childhood asthma.

Original language	English
Journal	Nature
Volume	463
Issue number	7284
Pages (from-to)	1048-53
Number of pages	5
ISSN	0028-0836
DOIs	https://doi.org/10.1038/nature08787
Publication status	Published - 25. Feb 2010

Keywords

Amino Acid Sequence
Asthma
Cell Line
Conserved Sequence
Fatty Acids, Monounsaturated
Hela Cells
Homeostasis
Humans
Molecular Sequence Data
Multigene Family
Multiprotein Complexes
Phosphoric Monoester Hydrolases
Phosphorylation
Protein Binding
Saccharomyces cerevisiae
Saccharomyces cerevisiae Proteins
Serine C-Palmitoyltransferase
Sphingolipids

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title = "Orm family proteins mediate sphingolipid homeostasis",

abstract = "Despite the essential roles of sphingolipids both as structural components of membranes and critical signalling molecules, we have a limited understanding of how cells sense and regulate their levels. Here we reveal the function in sphingolipid metabolism of the ORM genes (known as ORMDL genes in humans)-a conserved gene family that includes ORMDL3, which has recently been identified as a potential risk factor for childhood asthma. Starting from an unbiased functional genomic approach in Saccharomyces cerevisiae, we identify Orm proteins as negative regulators of sphingolipid synthesis that form a conserved complex with serine palmitoyltransferase, the first and rate-limiting enzyme in sphingolipid production. We also define a regulatory pathway in which phosphorylation of Orm proteins relieves their inhibitory activity when sphingolipid production is disrupted. Changes in ORM gene expression or mutations to their phosphorylation sites cause dysregulation of sphingolipid metabolism. Our work identifies the Orm proteins as critical mediators of sphingolipid homeostasis and raises the possibility that sphingolipid misregulation contributes to the development of childhood asthma.",

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author = "Breslow, \{David K\} and Collins, \{Sean R\} and Bernd Bodenmiller and Ruedi Aebersold and Kai Simons and Andrej Shevchenko and Ejsing, \{Christer S\} and Weissman, \{Jonathan S\}",

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AU - Breslow, David K

AU - Collins, Sean R

AU - Bodenmiller, Bernd

AU - Aebersold, Ruedi

AU - Simons, Kai

AU - Shevchenko, Andrej

AU - Ejsing, Christer S

AU - Weissman, Jonathan S

PY - 2010/2/25

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N2 - Despite the essential roles of sphingolipids both as structural components of membranes and critical signalling molecules, we have a limited understanding of how cells sense and regulate their levels. Here we reveal the function in sphingolipid metabolism of the ORM genes (known as ORMDL genes in humans)-a conserved gene family that includes ORMDL3, which has recently been identified as a potential risk factor for childhood asthma. Starting from an unbiased functional genomic approach in Saccharomyces cerevisiae, we identify Orm proteins as negative regulators of sphingolipid synthesis that form a conserved complex with serine palmitoyltransferase, the first and rate-limiting enzyme in sphingolipid production. We also define a regulatory pathway in which phosphorylation of Orm proteins relieves their inhibitory activity when sphingolipid production is disrupted. Changes in ORM gene expression or mutations to their phosphorylation sites cause dysregulation of sphingolipid metabolism. Our work identifies the Orm proteins as critical mediators of sphingolipid homeostasis and raises the possibility that sphingolipid misregulation contributes to the development of childhood asthma.

AB - Despite the essential roles of sphingolipids both as structural components of membranes and critical signalling molecules, we have a limited understanding of how cells sense and regulate their levels. Here we reveal the function in sphingolipid metabolism of the ORM genes (known as ORMDL genes in humans)-a conserved gene family that includes ORMDL3, which has recently been identified as a potential risk factor for childhood asthma. Starting from an unbiased functional genomic approach in Saccharomyces cerevisiae, we identify Orm proteins as negative regulators of sphingolipid synthesis that form a conserved complex with serine palmitoyltransferase, the first and rate-limiting enzyme in sphingolipid production. We also define a regulatory pathway in which phosphorylation of Orm proteins relieves their inhibitory activity when sphingolipid production is disrupted. Changes in ORM gene expression or mutations to their phosphorylation sites cause dysregulation of sphingolipid metabolism. Our work identifies the Orm proteins as critical mediators of sphingolipid homeostasis and raises the possibility that sphingolipid misregulation contributes to the development of childhood asthma.

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KW - Hela Cells

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KW - Molecular Sequence Data

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KW - Phosphoric Monoester Hydrolases

KW - Phosphorylation

KW - Protein Binding

KW - Saccharomyces cerevisiae

KW - Saccharomyces cerevisiae Proteins

KW - Serine C-Palmitoyltransferase

KW - Sphingolipids

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ER -

Orm family proteins mediate sphingolipid homeostasis

Abstract

Keywords

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