Abstract
The aim of the current study was to test the hypothesis that maternal lipid metabolism was modulated during normal pregnancy and that these modulations are altered in gestational diabetes mellitus (GDM). We tested this hypothesis using an established mouse model of diet-induced obesity with pregnancy-associated loss of glucose tolerance and a novel lipid analysis tool, Lipid Traffic Analysis, that uses the temporal distribution of lipids to identify differences in the control of lipid metabolism through a time course. Our results suggest that the start of pregnancy is associated with several changes in lipid metabolism, including fewer variables associated with de novo lipogenesis and fewer PUFA-containing lipids in the circulation. Several of the changes in lipid metabolism in healthy pregnancies were less apparent or occurred later in dams who developed GDM. Some changes in maternal lipid metabolism in the obese-GDM group were so late as to only occur as the control dams’ systems began to switch back towards the non-pregnant state. These results demonstrate that lipid metabolism is modulated in healthy pregnancy and the timing of these changes is altered in GDM pregnancies. These findings raise important questions about how lipid metabolism contributes to changes in metabolism during healthy pregnancies. Furthermore, as alterations in the lipidome are present before the loss of glucose tolerance, they could contribute to the development of GDM mechanistically.
Highlights
Gestational diabetes (GDM) remains the most common cause of complications in human pregnancy [1]
This study addressed the hypothesis that lipid metabolism changes during normal This study addressed the hypothesis that lipid metabolism changes during normal pregnancy and that the control of these changes would differ in those affected by gestational diabetes mellitus (GDM)
Our longitudinal analysis demonstrates that the control of lipid metabolism differs during a GDM pregnancy, providing evidence to support longmetabolism differs a GDMofpregnancy, providing evidence to support longstanding suggestions thatduring dysregulation lipid metabolism could lead to the development standing suggestions that dysregulation of lipid metabolism could lead to the developof GDM and type 2 diabetes mellitus (T2DM) [25,36]
Summary
Gestational diabetes (GDM) remains the most common cause of complications in human pregnancy [1]. 30% of women with a BMI > 30 at the start of pregnancy developing GDM [2,3,4] compared to around 8% across the general UK population [1]. There is an increased risk of both cardio-vascular disease and type 2 diabetes mellitus (T2DM) in the decade after delivery in individuals who developed GDM [12,13,14,15,16]. Research in this area includes a systematic review of over 5 million women across nine studies that 4.0/).
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