Sphingolipids and acylcarnitines are altered in placentas from women with gestational diabetes mellitus

Gabriela D A Pinto; Antonio Murgia; Carla Lai; Carolina S Ferreira; Vanessa A Goes; Deborah de A B Guimarães; Layla G Ranquine; Desirée L Reis; Claudio J Struchiner; Julian L Griffin; Graham J Burton; Alexandre G Torres; Tatiana El-Bacha

doi:10.1017/S000711452200397X

Sphingolipids and acylcarnitines are altered in placentas from women with gestational diabetes mellitus

Gabriela D A Pinto, Antonio Murgia, Carla Lai, Carolina S Ferreira, Vanessa A Goes, Deborah de A B Guimarães, Layla G Ranquine, Desirée L Reis, Claudio J Struchiner, Julian L Griffin, Graham J Burton, Alexandre G Torres, Tatiana El-Bacha

The Rowett Institute of Nutrition and Health

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

Abstract

Gestational diabetes mellitus (GDM) is the most common medical complication of pregnancy and a severe threat to pregnant people and offspring health. The molecular origins of GDM, and in particular the placental responses, are not fully known. The present study aimed to perform a comprehensive characterisation of the lipid species in placentas from pregnancies complicated with GDM using high-resolution MS lipidomics, with a particular focus on sphingolipids and acylcarnitines in a semi-targeted approach. The results indicated that despite no major disruption in lipid metabolism, placentas from GDM pregnancies showed significant alterations in sphingolipids, mostly lower abundance of total ceramides. Additionally, very long-chain ceramides and sphingomyelins with twenty-four carbons were lower, and glucosylceramides with sixteen carbons were higher in placentas from GDM pregnancies. Semi-targeted lipidomics revealed the strong impact of GDM on the placental acylcarnitine profile, particularly lower contents of medium and long-chain fatty-acyl carnitine species. The lower contents of sphingolipids may affect the secretory function of the placenta, and lower contents of long-chain fatty acylcarnitines is suggestive of mitochondrial dysfunction. These alterations in placental lipid metabolism may have consequences for fetal growth and development.

Original language	English
Pages (from-to)	921-932
Number of pages	12
Journal	British Journal of Nutrition
Volume	130
Issue number	6
Early online date	21 Dec 2022
DOIs	https://doi.org/10.1017/S000711452200397X
Publication status	Published - 28 Sept 2023

Keywords

Pregnancy
Female
Humans
Placenta/metabolism
Diabetes, Gestational/metabolism
Sphingolipids/metabolism
Carnitine/metabolism
Ceramides/metabolism

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1017/S000711452200397XLicence: Unspecified

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Pinto, G. D. A., Murgia, A., Lai, C., Ferreira, C. S., Goes, V. A., Guimarães, D. D. A. B., Ranquine, L. G., Reis, D. L., Struchiner, C. J., Griffin, J. L., Burton, G. J., Torres, A. G., & El-Bacha, T. (2023). Sphingolipids and acylcarnitines are altered in placentas from women with gestational diabetes mellitus. British Journal of Nutrition, 130(6), 921-932. https://doi.org/10.1017/S000711452200397X

Pinto, GDA, Murgia, A, Lai, C, Ferreira, CS, Goes, VA, Guimarães, DDAB, Ranquine, LG, Reis, DL, Struchiner, CJ, Griffin, JL, Burton, GJ, Torres, AG & El-Bacha, T 2023, 'Sphingolipids and acylcarnitines are altered in placentas from women with gestational diabetes mellitus', British Journal of Nutrition, vol. 130, no. 6, pp. 921-932. https://doi.org/10.1017/S000711452200397X

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abstract = "Gestational diabetes mellitus (GDM) is the most common medical complication of pregnancy and a severe threat to pregnant people and offspring health. The molecular origins of GDM, and in particular the placental responses, are not fully known. The present study aimed to perform a comprehensive characterisation of the lipid species in placentas from pregnancies complicated with GDM using high-resolution MS lipidomics, with a particular focus on sphingolipids and acylcarnitines in a semi-targeted approach. The results indicated that despite no major disruption in lipid metabolism, placentas from GDM pregnancies showed significant alterations in sphingolipids, mostly lower abundance of total ceramides. Additionally, very long-chain ceramides and sphingomyelins with twenty-four carbons were lower, and glucosylceramides with sixteen carbons were higher in placentas from GDM pregnancies. Semi-targeted lipidomics revealed the strong impact of GDM on the placental acylcarnitine profile, particularly lower contents of medium and long-chain fatty-acyl carnitine species. The lower contents of sphingolipids may affect the secretory function of the placenta, and lower contents of long-chain fatty acylcarnitines is suggestive of mitochondrial dysfunction. These alterations in placental lipid metabolism may have consequences for fetal growth and development.",

keywords = "Pregnancy, Female, Humans, Placenta/metabolism, Diabetes, Gestational/metabolism, Sphingolipids/metabolism, Carnitine/metabolism, Ceramides/metabolism",

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doi = "10.1017/S000711452200397X",

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T1 - Sphingolipids and acylcarnitines are altered in placentas from women with gestational diabetes mellitus

AU - Pinto, Gabriela D A

AU - Murgia, Antonio

AU - Lai, Carla

AU - Ferreira, Carolina S

AU - Goes, Vanessa A

AU - Guimarães, Deborah de A B

AU - Ranquine, Layla G

AU - Reis, Desirée L

AU - Struchiner, Claudio J

AU - Griffin, Julian L

AU - Burton, Graham J

AU - Torres, Alexandre G

AU - El-Bacha, Tatiana

PY - 2023/9/28

Y1 - 2023/9/28

N2 - Gestational diabetes mellitus (GDM) is the most common medical complication of pregnancy and a severe threat to pregnant people and offspring health. The molecular origins of GDM, and in particular the placental responses, are not fully known. The present study aimed to perform a comprehensive characterisation of the lipid species in placentas from pregnancies complicated with GDM using high-resolution MS lipidomics, with a particular focus on sphingolipids and acylcarnitines in a semi-targeted approach. The results indicated that despite no major disruption in lipid metabolism, placentas from GDM pregnancies showed significant alterations in sphingolipids, mostly lower abundance of total ceramides. Additionally, very long-chain ceramides and sphingomyelins with twenty-four carbons were lower, and glucosylceramides with sixteen carbons were higher in placentas from GDM pregnancies. Semi-targeted lipidomics revealed the strong impact of GDM on the placental acylcarnitine profile, particularly lower contents of medium and long-chain fatty-acyl carnitine species. The lower contents of sphingolipids may affect the secretory function of the placenta, and lower contents of long-chain fatty acylcarnitines is suggestive of mitochondrial dysfunction. These alterations in placental lipid metabolism may have consequences for fetal growth and development.

AB - Gestational diabetes mellitus (GDM) is the most common medical complication of pregnancy and a severe threat to pregnant people and offspring health. The molecular origins of GDM, and in particular the placental responses, are not fully known. The present study aimed to perform a comprehensive characterisation of the lipid species in placentas from pregnancies complicated with GDM using high-resolution MS lipidomics, with a particular focus on sphingolipids and acylcarnitines in a semi-targeted approach. The results indicated that despite no major disruption in lipid metabolism, placentas from GDM pregnancies showed significant alterations in sphingolipids, mostly lower abundance of total ceramides. Additionally, very long-chain ceramides and sphingomyelins with twenty-four carbons were lower, and glucosylceramides with sixteen carbons were higher in placentas from GDM pregnancies. Semi-targeted lipidomics revealed the strong impact of GDM on the placental acylcarnitine profile, particularly lower contents of medium and long-chain fatty-acyl carnitine species. The lower contents of sphingolipids may affect the secretory function of the placenta, and lower contents of long-chain fatty acylcarnitines is suggestive of mitochondrial dysfunction. These alterations in placental lipid metabolism may have consequences for fetal growth and development.

KW - Pregnancy

KW - Female

KW - Humans

KW - Placenta/metabolism

KW - Diabetes, Gestational/metabolism

KW - Sphingolipids/metabolism

KW - Carnitine/metabolism

KW - Ceramides/metabolism

U2 - 10.1017/S000711452200397X

DO - 10.1017/S000711452200397X

M3 - Article

C2 - 36539977

SN - 0007-1145

VL - 130

SP - 921

EP - 932

JO - British Journal of Nutrition

JF - British Journal of Nutrition

IS - 6

ER -

Sphingolipids and acylcarnitines are altered in placentas from women with gestational diabetes mellitus

Abstract

Keywords

UN SDGs

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