Global Mapping of Protein–Lipid Interactions by Using Modified Choline‐Containing Phospholipids Metabolically Synthesized in Live Cells

The protein–lipid interaction is an essential metabolic process that mediates cellular signaling and functions. Existing strategies for large‐scale mapping studies of the protein–lipid interaction fall short in their incompatibility with metabolic incorporation or inability to remove unwanted interf...

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Published in	Angewandte Chemie International Edition Vol. 56; no. 21; pp. 5829 - 5833
Main Authors	Wang, Danyang, Du, Shubo, Cazenave‐Gassiot, Amaury, Ge, Jingyan, Lee, Jun‐Seok, Wenk, Markus R., Yao, Shao Q.
Format	Journal Article
Language	English
Published	Germany Wiley Subscription Services, Inc 15.05.2017
Edition	International ed. in English
Subjects	Alkynes Choline click chemistry Fatty acids Incompatibility Lipids Mammalian cells Metabolism Peptide mapping phosphatidylcholine Phospholipids photo-crosslinking Proteins protein–lipid interactions Proteomics quantitative proteomics Synthesis click chemistry photo-crosslinking protein-lipid interactions quantitative proteomics phosphatidylcholine
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Abstract	The protein–lipid interaction is an essential metabolic process that mediates cellular signaling and functions. Existing strategies for large‐scale mapping studies of the protein–lipid interaction fall short in their incompatibility with metabolic incorporation or inability to remove unwanted interferences from lipidated proteins. By incorporating an alkyne‐containing choline head group and a diazirine‐modified fatty acid simultaneously into choline‐containing phospholipids synthesized from live mammalian cells, protein–phospholipid interactions have been successfully imaged in live cells. Subsequent in situ profiling of the modified Cho phospholipid‐crosslinked proteins followed by quantitative proteomics allowed identification of several hundred putative phospholipid‐interacting proteins, some of which were further validated. Double the load: A novel double incorporation strategy for metabolic biosynthesis of bifunctional choline‐containing phospholipids (for example phosphatidylcholine (PC); see picture) was developed. This strategy offers significant improvement for global mapping of genuine protein–lipid interactions from live mammalian cells.
AbstractList	The protein-lipid interaction is an essential metabolic process that mediates cellular signaling and functions. Existing strategies for large-scale mapping studies of the protein-lipid interaction fall short in their incompatibility with metabolic incorporation or inability to remove unwanted interferences from lipidated proteins. By incorporating an alkyne-containing choline head group and a diazirine-modified fatty acid simultaneously into choline-containing phospholipids synthesized from live mammalian cells, protein-phospholipid interactions have been successfully imaged in live cells. Subsequent insitu profiling of the modified Cho phospholipid-crosslinked proteins followed by quantitative proteomics allowed identification of several hundred putative phospholipid-interacting proteins, some of which were further validated. The protein-lipid interaction is an essential metabolic process that mediates cellular signaling and functions. Existing strategies for large-scale mapping studies of the protein-lipid interaction fall short in their incompatibility with metabolic incorporation or inability to remove unwanted interferences from lipidated proteins. By incorporating an alkyne-containing choline head group and a diazirine-modified fatty acid simultaneously into choline-containing phospholipids synthesized from live mammalian cells, protein-phospholipid interactions have been successfully imaged in live cells. Subsequent in situ profiling of the modified Cho phospholipid-crosslinked proteins followed by quantitative proteomics allowed identification of several hundred putative phospholipid-interacting proteins, some of which were further validated. The protein-lipid interaction is an essential metabolic process that mediates cellular signaling and functions. Existing strategies for large-scale mapping studies of the protein-lipid interaction fall short in their incompatibility with metabolic incorporation or inability to remove unwanted interferences from lipidated proteins. By incorporating an alkyne-containing choline head group and a diazirine-modified fatty acid simultaneously into choline-containing phospholipids synthesized from live mammalian cells, protein-phospholipid interactions have been successfully imaged in live cells. Subsequent in situ profiling of the modified Cho phospholipid-crosslinked proteins followed by quantitative proteomics allowed identification of several hundred putative phospholipid-interacting proteins, some of which were further validated.The protein-lipid interaction is an essential metabolic process that mediates cellular signaling and functions. Existing strategies for large-scale mapping studies of the protein-lipid interaction fall short in their incompatibility with metabolic incorporation or inability to remove unwanted interferences from lipidated proteins. By incorporating an alkyne-containing choline head group and a diazirine-modified fatty acid simultaneously into choline-containing phospholipids synthesized from live mammalian cells, protein-phospholipid interactions have been successfully imaged in live cells. Subsequent in situ profiling of the modified Cho phospholipid-crosslinked proteins followed by quantitative proteomics allowed identification of several hundred putative phospholipid-interacting proteins, some of which were further validated. The protein–lipid interaction is an essential metabolic process that mediates cellular signaling and functions. Existing strategies for large‐scale mapping studies of the protein–lipid interaction fall short in their incompatibility with metabolic incorporation or inability to remove unwanted interferences from lipidated proteins. By incorporating an alkyne‐containing choline head group and a diazirine‐modified fatty acid simultaneously into choline‐containing phospholipids synthesized from live mammalian cells, protein–phospholipid interactions have been successfully imaged in live cells. Subsequent in situ profiling of the modified Cho phospholipid‐crosslinked proteins followed by quantitative proteomics allowed identification of several hundred putative phospholipid‐interacting proteins, some of which were further validated. Double the load: A novel double incorporation strategy for metabolic biosynthesis of bifunctional choline‐containing phospholipids (for example phosphatidylcholine (PC); see picture) was developed. This strategy offers significant improvement for global mapping of genuine protein–lipid interactions from live mammalian cells.
Author	Ge, Jingyan Wenk, Markus R. Lee, Jun‐Seok Yao, Shao Q. Wang, Danyang Du, Shubo Cazenave‐Gassiot, Amaury
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Keywords	click chemistry photo-crosslinking protein-lipid interactions quantitative proteomics phosphatidylcholine
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Snippet	The protein–lipid interaction is an essential metabolic process that mediates cellular signaling and functions. Existing strategies for large‐scale mapping... The protein-lipid interaction is an essential metabolic process that mediates cellular signaling and functions. Existing strategies for large-scale mapping...
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SubjectTerms	Alkynes Choline click chemistry Fatty acids Incompatibility Lipids Mammalian cells Metabolism Peptide mapping phosphatidylcholine Phospholipids photo-crosslinking Proteins protein–lipid interactions Proteomics quantitative proteomics Synthesis
Title	Global Mapping of Protein–Lipid Interactions by Using Modified Choline‐Containing Phospholipids Metabolically Synthesized in Live Cells
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