Placental expression of DNA methyltransferase 1 (DNMT1): Gender-specific relation with human placental growth.

AIMS: Placental physiology and morphology is critically regulated by DNA methylation. As such, placental global DNA methylation and transcript abundance of placental DNA methyltransferases (DNMT1 and DNMT3A) may relate to placental and fetal growth in human pregnancies. We aimed to test correlations of human fetoplacental parameters and birth weight with the placental expression of DNA methyltransferases (DNMT1 and DNMT3A) and placental global methylation. SUBJECTS AND METHODS: Placentae (n = 109) were collected from small- (SGA) and appropriate- (AGA) for gestational age full-term singleton pregnancies (n = 56 SGA and 53 AGA). Placentae and neonates were weighed at birth. Realtime quantitative PCR was performed to assess placental transcript abundance of DNMT1, DNMT3A and DNTMT3B normalized to a panel of reference genes. LINE-1 methylation was measured using a quantitative MethyLight assay in a subset of samples (n = 68). Associations of placental transcript abundances of DNMT1, DNMT3A and DNMT3B and of LINE-1 methylation levels with maternal, placental and neonatal parameters were tested. RESULTS: Placental DNMT1 transcript abundance associated positively with placental weight (ß = 10.21, P = 0.013). This association was specific to the AGA births (ß = 12.77, P = 0.022) and was absent in the SGA births. Association of DNMT1 expression with placental weight and birth weight within the AGA births was specific to the female gender (Birth weight: ß = 83.61, P = 0.043; Placental weight: ß = 23.92, P = 0.025). Placental DNMT1 transcript levels were not different according to SGA status or gender. Placental DNMT3A transcript levels and LINE-1 methylation levels did not show any associations with maternal, placental and neonatal parameters. CONCLUSIONS: Placental DNMT1 expression was found to be associated positively with placental weight and birth weight, specifically in the female AGA births. Thus, we hypothesize that placental DNMT1 participates in fetoplacental growth in a fetal gender-specific manner.

Placental expression of the insulin receptor binding protein GRB10: Relation to human fetoplacental growth and fetal gender.

INTRODUCTION: Imprinted genes play an important role in mammalian fetoplacental growth and development. We have evaluated whether the placental expression of two imprinted genes, growth factor receptor-binding protein 10 (GRB10) and pleckstrin homology-like domain, family A, member 2 (PHLDA2) correlate with human fetoplacental growth parameters. METHODS: Placentae (n = 77) were collected from small- (SGA) and appropriate- (AGA) for gestational age full-term singleton pregnancies (n = 36 SGA and 41 AGA). Placentae and neonates were weighed at birth. Realtime quantitative PCR was performed to assess placental transcript abundance of GRB10 and PHLDA2 normalized to a panel of reference genes. RESULTS: Placental GRB10 transcript abundance associated positively with placental weight (r = 0.307, P = 0.007), birth weight (r = 0.267, P = 0.019) and neonatal head circumference (r = 0.280, P = 0.014). Placental GRB10 transcript levels were significantly lower in male SGA placentae compared to the male AGA placentae. Placental PHLDA2 transcript abundance did not show any associations with maternal, placental or neonatal parameters. DISCUSSION: Placental GRB10 expression was found to be associated positively with placental weight, birth weight, and neonatal head circumference, especially in males. Hence, we speculate that placental GRB10 plays a role in regulating fetoplacental growth and thereby in the pathophysiology of fetal growth restriction in the context of fetal gender.