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. 2015 Apr 14:15:92.
doi: 10.1186/s12884-015-0524-1.

Maternal creatine homeostasis is altered during gestation in the spiny mouse: is this a metabolic adaptation to pregnancy?

Stacey J Ellery  1   2 Domenic A LaRosa  3   4 Michelle M Kett  5 Paul A Della Gatta  6 Rod J Snow  7 David W Walker  8   9 Hayley Dickinson  10   11
Affiliations

Maternal creatine homeostasis is altered during gestation in the spiny mouse: is this a metabolic adaptation to pregnancy?

Stacey J Ellery et al. BMC Pregnancy Childbirth. .

Abstract

Background: Pregnancy induces adaptations in maternal metabolism to meet the increased need for nutrients by the placenta and fetus. Creatine is an important intracellular metabolite obtained from the diet and also synthesised endogenously. Experimental evidence suggests that the fetus relies on a maternal supply of creatine for much of gestation. However, the impact of pregnancy on maternal creatine homeostasis is unclear. We hypothesise that alteration of maternal creatine homeostasis occurs during pregnancy to ensure adequate levels of this essential substrate are available for maternal tissues, the placenta and fetus. This study aimed to describe maternal creatine homeostasis from mid to late gestation in the precocial spiny mouse.

Methods: Plasma creatine concentration and urinary excretion were measured from mid to late gestation in pregnant (n = 8) and age-matched virgin female spiny mice (n = 6). At term, body composition and organ weights were assessed and tissue total creatine content determined. mRNA expression of the creatine synthesising enzymes arginine:glycine amidinotransferase (AGAT) and guanidinoacetate methyltransferase (GAMT), and the creatine transporter (CrT1) were assessed by RT-qPCR. Protein expression of AGAT and GAMT was also assessed by western blot analysis.

Results: Plasma creatine and renal creatine excretion decreased significantly from mid to late gestation (P < 0.001, P < 0.05, respectively). Pregnancy resulted in increased lean tissue (P < 0.01), kidney (P < 0.01), liver (P < 0.01) and heart (P < 0.05) mass at term. CrT1 expression was increased in the heart (P < 0.05) and skeletal muscle (P < 0.05) at term compared to non-pregnant tissues, and creatine content of the heart (P < 0.05) and kidney (P < 0.001) were also increased at this time. CrT1 mRNA expression was down-regulated in the liver (<0.01) and brain (<0.01) of pregnant spiny mice at term. Renal AGAT mRNA (P < 0.01) and protein (P < 0.05) expression were both significantly up-regulated at term, with decreased expression of AGAT mRNA (<0.01) and GAMT protein (<0.05) observed in the term pregnant heart. Brain AGAT (<0.01) and GAMT (<0.001) mRNA expression were also decreased at term.

Conclusion: Change of maternal creatine status (increased creatine synthesis and reduced creatine excretion) may be a necessary adjustment of maternal physiology to pregnancy to meet the metabolic demands of maternal tissues, the placenta and developing fetus.

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Figures

Figure 1
Figure 1
Maternal Plasma Creatine Concentration and Urinary Creatine Concentration from Mid to Late Gestation. (A) Plasma creatine concentration (μmol/L) of non-pregnant controls and pregnant spiny mice at 23d GA, 35d GA and term. (B) Urinary creatine excretion (mgCr/12 h) in non-pregnant and pregnant spiny mice at 23d GA and 35d GA. Values are means ± SEM; n = 6-8/group. Statistical analysis One-Way ANOVA with Bonferroni Multiple Comparisons. Significance P ≤ 0.05; *P <0.05, **P < 0.01, ***P < 0.001.
Figure 2
Figure 2
Maternal AGAT and GAMT Expression in the Kidney and Liver. Maternal kidney AGAT mRNA (A) and protein (B) expression significantly increased at term, compared to non-pregnant controls. No change in liver GAMT mRNA (C) was observed, however GAMT protein was decreased at term (D). Data are expressed relative to the house keeping gene/protein. Values are means ± SEM; n = 6-8/group. Statistical analysis Students t-Test. Significance P < 0.05; *P <0.05.
Figure 3
Figure 3
Maternal Creatine Transporter Expression. Creatine transporter 1 (CrT1) mRNA expression was reduced in the liver (A) and brain (B) of pregnant spiny mice at term. An increase in CrT1 mRNA expression, relative to non-pregnant controls, was observed in the heart (C) and gastrocnemius muscle (D) of term pregnant spiny mice. Data are expressed relative to the house keeping gene/protein. Values are means ± SEM; n = 6-8/group. Statistical analysis Students t-Test. Significance P ≤ 0.05; *P <0.01.
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