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Postnatal adaptations of phosphatidylcholine metabolism in extremely preterm infants: implications for choline and PUFA metabolism

Postnatal adaptations of phosphatidylcholine metabolism in extremely preterm infants: implications for choline and PUFA metabolism
Postnatal adaptations of phosphatidylcholine metabolism in extremely preterm infants: implications for choline and PUFA metabolism

Background: Lipid metabolism in pregnancy delivers PUFAs from maternal liver to the developing fetus. The transition at birth to diets less enriched in PUFA is especially challenging for immature, extremely preterm infants who are typically supported by total parenteral nutrition.

Objective: The aim was to characterize phosphatidylcholine (PC) and choline metabolism in preterm infants and demonstrate the molecular specificity of PC synthesis by the immature preterm liver in vivo.

Methods: This MS-based lipidomic study quantified the postnatal adaptations to plasma PC molecular composition in 31 preterm infants <28 weeks' gestational age. Activities of the cytidine diphosphocholine (CDP-choline) and phosphatidylethanolamine-N-methyltransferase (PEMT) pathways for PC synthesis were assessed from incorporations of deuterated methyl-D9-choline chloride.

Results: The concentration of plasma PC in these infants increased postnatally from median values of 481 (IQR: 387-798) µM at enrollment to 1046 (IQR: 616-1220) µM 5 d later (P < 0.001). Direct incorporation of methyl-D9-choline demonstrated that this transition was driven by an active CDP-choline pathway that synthesized PC enriched in species containing oleic and linoleic acids. A second infusion of methyl-D9-choline chloride at day 5 clearly indicated continued activity of this pathway. Oxidation of D9-choline through D9-betaine resulted in the transfer of 1 deuterated methyl group to S-adenosylmethionine. A very low subsequent transfer of this labeled methyl group to D3-PC indicated that liver PEMT activity was essentially inactive in these infants.

Conclusions: This study demonstrated that the preterm infant liver soon after birth, and by extension the fetal liver, was metabolically active in lipoprotein metabolism. The low PEMT activity, which is the only pathway for endogenous choline synthesis and is responsible for hormonally regulated export of PUFAs from adult liver, strongly supports increased supplementation of preterm parenteral nutrition with both choline and PUFAs.

Adaptation, Physiological, Choline/metabolism, Cohort Studies, Fatty Acids, Unsaturated/metabolism, Female, Humans, Infant, Extremely Premature/metabolism, Infant, Newborn, Isotope Labeling, Male, Phosphatidylcholines/blood
0002-9165
1438-1447
Goss, Kevin C W
f81fb1f2-e427-459f-ba21-605eeda37640
Goss, Victoria M
ef02be5d-9318-4f7d-b076-3153555980d0
Townsend, J Paul
16c04a59-d07b-4d3d-9b07-be35529bc024
Koster, Grielof
e404c38a-6f48-430a-adf0-5208228cb9e7
Clark, Howard W
70550b6d-3bd7-47c6-8c02-4f43f37d5213
Postle, Anthony D
0fa17988-b4a0-4cdc-819a-9ae15c5dad66
Goss, Kevin C W
f81fb1f2-e427-459f-ba21-605eeda37640
Goss, Victoria M
ef02be5d-9318-4f7d-b076-3153555980d0
Townsend, J Paul
16c04a59-d07b-4d3d-9b07-be35529bc024
Koster, Grielof
e404c38a-6f48-430a-adf0-5208228cb9e7
Clark, Howard W
70550b6d-3bd7-47c6-8c02-4f43f37d5213
Postle, Anthony D
0fa17988-b4a0-4cdc-819a-9ae15c5dad66

Goss, Kevin C W, Goss, Victoria M, Townsend, J Paul, Koster, Grielof, Clark, Howard W and Postle, Anthony D (2020) Postnatal adaptations of phosphatidylcholine metabolism in extremely preterm infants: implications for choline and PUFA metabolism. The American Journal of Clinical Nutrition, 112 (6), 1438-1447. (doi:10.1093/ajcn/nqaa207).

Record type: Article

Abstract

Background: Lipid metabolism in pregnancy delivers PUFAs from maternal liver to the developing fetus. The transition at birth to diets less enriched in PUFA is especially challenging for immature, extremely preterm infants who are typically supported by total parenteral nutrition.

Objective: The aim was to characterize phosphatidylcholine (PC) and choline metabolism in preterm infants and demonstrate the molecular specificity of PC synthesis by the immature preterm liver in vivo.

Methods: This MS-based lipidomic study quantified the postnatal adaptations to plasma PC molecular composition in 31 preterm infants <28 weeks' gestational age. Activities of the cytidine diphosphocholine (CDP-choline) and phosphatidylethanolamine-N-methyltransferase (PEMT) pathways for PC synthesis were assessed from incorporations of deuterated methyl-D9-choline chloride.

Results: The concentration of plasma PC in these infants increased postnatally from median values of 481 (IQR: 387-798) µM at enrollment to 1046 (IQR: 616-1220) µM 5 d later (P < 0.001). Direct incorporation of methyl-D9-choline demonstrated that this transition was driven by an active CDP-choline pathway that synthesized PC enriched in species containing oleic and linoleic acids. A second infusion of methyl-D9-choline chloride at day 5 clearly indicated continued activity of this pathway. Oxidation of D9-choline through D9-betaine resulted in the transfer of 1 deuterated methyl group to S-adenosylmethionine. A very low subsequent transfer of this labeled methyl group to D3-PC indicated that liver PEMT activity was essentially inactive in these infants.

Conclusions: This study demonstrated that the preterm infant liver soon after birth, and by extension the fetal liver, was metabolically active in lipoprotein metabolism. The low PEMT activity, which is the only pathway for endogenous choline synthesis and is responsible for hormonally regulated export of PUFAs from adult liver, strongly supports increased supplementation of preterm parenteral nutrition with both choline and PUFAs.

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Accepted/In Press date: 1 July 2020
e-pub ahead of print date: 10 August 2020
Published date: 10 December 2020
Additional Information: Copyright © The Author(s) on behalf of the American Society for Nutrition 2020.
Keywords: Adaptation, Physiological, Choline/metabolism, Cohort Studies, Fatty Acids, Unsaturated/metabolism, Female, Humans, Infant, Extremely Premature/metabolism, Infant, Newborn, Isotope Labeling, Male, Phosphatidylcholines/blood

Identifiers

Local EPrints ID: 494366
URI: http://eprints.soton.ac.uk/id/eprint/494366
ISSN: 0002-9165
PURE UUID: 8dace08a-3ffb-4f12-82e9-0c11c4a73553
ORCID for Anthony D Postle: ORCID iD orcid.org/0000-0001-7361-0756

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Date deposited: 04 Oct 2024 17:31
Last modified: 05 Oct 2024 01:32

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Contributors

Author: Kevin C W Goss
Author: Victoria M Goss
Author: J Paul Townsend
Author: Grielof Koster
Author: Howard W Clark

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