Electrospray ionisation mass spectrometry analysis of differential turnover of phosphatidylcholine by human blood leukocytes
Electrospray ionisation mass spectrometry analysis of differential turnover of phosphatidylcholine by human blood leukocytes
Synthesis and turnover of membrane phospholipids is essential for cell growth and function, and hydrolysis of membrane phospholipid is central to many intracellular signalling mechanisms. Hydrolysis of phosphatidylcholine (PC) is a major signalling mechanism of neutrophils, leukocytes that phagocytose and kill bacteria as part of the innate immune response, generating phosphatidic acid, diacylglycerol and arachidonate-derived lipid second messengers. We describe here the application of tandem MS/MS electrospray ionisation mass spectrometry to the analysis of molecular patterns of PC synthesis by blood neutrophil and lymphocyte cells from healthy volunteers. This technique combined incorporation of the headgroup choline, methyl-labelled with deuterium (methyl-d9-choline), with precursor scans of diagnostic labelled and native fragment ions. The technique was very sensitive, permitting detection of d9 enrichment <0.01%. Results showed that the two different cell types maintained distinct molecular species compositions of PC, even though they were exposed to the same nutrient supply in blood. Moreover, while the pattern of lymphocyte PC synthesis directly mirrored composition, the fractional synthesis of arachidonoyl (C204,n-6)-containing PC species in neutrophils was greatly enhanced compared with composition. This increased turnover of arachidonoyl species in neutrophils may be related to the active synthesis of eicosanoids and other arachidonoyl-derived mediators in this cell type.
1018-1021
Postle, Anthony D.
0fa17988-b4a0-4cdc-819a-9ae15c5dad66
Madden, Jackie
0771e352-d432-41ea-8a7e-4704c1efca46
Clark, Graeme T.
1ccb751b-3780-485a-b1de-07bbee387859
Wright, Sarah M.
3a1a6210-0711-4cee-ba88-4dd3d98af16a
2004
Postle, Anthony D.
0fa17988-b4a0-4cdc-819a-9ae15c5dad66
Madden, Jackie
0771e352-d432-41ea-8a7e-4704c1efca46
Clark, Graeme T.
1ccb751b-3780-485a-b1de-07bbee387859
Wright, Sarah M.
3a1a6210-0711-4cee-ba88-4dd3d98af16a
Postle, Anthony D., Madden, Jackie, Clark, Graeme T. and Wright, Sarah M.
(2004)
Electrospray ionisation mass spectrometry analysis of differential turnover of phosphatidylcholine by human blood leukocytes.
Physical Chemistry Chemical Physics, 6, .
(doi:10.1039/b312196h).
Abstract
Synthesis and turnover of membrane phospholipids is essential for cell growth and function, and hydrolysis of membrane phospholipid is central to many intracellular signalling mechanisms. Hydrolysis of phosphatidylcholine (PC) is a major signalling mechanism of neutrophils, leukocytes that phagocytose and kill bacteria as part of the innate immune response, generating phosphatidic acid, diacylglycerol and arachidonate-derived lipid second messengers. We describe here the application of tandem MS/MS electrospray ionisation mass spectrometry to the analysis of molecular patterns of PC synthesis by blood neutrophil and lymphocyte cells from healthy volunteers. This technique combined incorporation of the headgroup choline, methyl-labelled with deuterium (methyl-d9-choline), with precursor scans of diagnostic labelled and native fragment ions. The technique was very sensitive, permitting detection of d9 enrichment <0.01%. Results showed that the two different cell types maintained distinct molecular species compositions of PC, even though they were exposed to the same nutrient supply in blood. Moreover, while the pattern of lymphocyte PC synthesis directly mirrored composition, the fractional synthesis of arachidonoyl (C204,n-6)-containing PC species in neutrophils was greatly enhanced compared with composition. This increased turnover of arachidonoyl species in neutrophils may be related to the active synthesis of eicosanoids and other arachidonoyl-derived mediators in this cell type.
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Published date: 2004
Organisations:
Infection Inflammation & Immunity, Dev Origins of Health & Disease
Identifiers
Local EPrints ID: 27336
URI: http://eprints.soton.ac.uk/id/eprint/27336
ISSN: 1463-9076
PURE UUID: d48f25f8-6815-45d9-8de8-dbdf4a4f0983
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Date deposited: 25 Apr 2006
Last modified: 16 Mar 2024 02:32
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Author:
Jackie Madden
Author:
Graeme T. Clark
Author:
Sarah M. Wright
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