159. MATERNAL NUTRITION AND GESTATIONAL AGE AFFECT PLACENTAL microRNA EXPRESSION IN THE GUINEA PIG

Maternal undernutrition restricts placental growth and nutrient supply to the fetus, but induces compensatory alterations in structure and function of the placenta. Maternal undernutrition in guinea pigs also restricts placental growth and alters structure, and changes expression of Igf1, Igf2, Slc2a1, Slc38a2 mRNA in mid and late gestation, consistent with nutritionally induced changes in nutrient transport across the placenta. MicroRNAs are non-coding RNAs that regulate expression of target genes by translational inhibition and mRNA degradation and are present in the mammalian placenta. Effects of maternal undernutrition on their expression are unknown. We hypothesised that altered expression of key functional genes in the placenta in maternal undernutrition are in part due to altered expression of regulatory microRNAs. The effect of maternal food restriction on the expression of microRNAs in the guinea pig placenta was examined at D30 and D60 of gestation (term = D70). Guinea pigs were fed either ad libitum (AL) or restricted (R). MicroRNA expression was determined by Exiqon microarray v.8.1. In AL placentas, 119 microRNAs were upregulated (p<0.05), whilst 40 were down-regulated (p<0.05) at late compared to early gestation. In R placentas, 163 microRNAs were upregulated (p<0.05), whilst 123 were down-regulated (p<0.05) at late compared to early gestation. Of the 20 most abundant up-regulated microRNAs miR-Plus (ID 17871) and hsa-miR-411 were altered only in AL and hsa-miR-376a and -376b were altered only in R placenta. Of the 20 most abundant down-regulated microRNAs, 13 were altered only in AL and 14 only in R placentas. Placental expression of microRNAs changed with gestation, and maternal undernutrition modified this pattern and altered expression of many additional microRNAs in the guinea pig placenta. This suggests that miRNAs and factors that influence their expression may play a role in the structural and/or functional development of the placenta and hence fetal growth.