Intra-uterine growth restriction (IUGR) and fetal overgrowth increase the risk of postnatal health. Maternal nutrition is the major intrauterine environmental factor that alters fetal weight. However, the mechanisms underlying maternal nutrition affect fetal development is not entirely clear. We developed a pig model and used isobaric tags for relative and absolute quantification (iTRAQ) to investigate alterations in the placental proteome were obtained from gilts in normal-energy-intake (Con) and high-energy-intake (HE) group, respectively.At 90 d of gestation, the heavy fetuses were found at the tubal ends and light fetuses at the cervical ends of the uterus in Con group and the heavy fetuses had higher glucose concentration than the light fetuses. However, a higher uniformity was noted in HE group. Placental promote between these two positions indicated that a total of 78 and 50 differentially expressed proteins were detected in Con and HE group, respectively. In Con group, these proteins related to lipid metabolism (HADHA, AACS, CAD), nutrient transport (GLUT, SLC27A1) and energy metabolism (NDUFV1, NDUFV2, ATP5C1). However, the differentially expressed proteins in HE group were mainly participation in transcriptional and translational regulation and intracellular vesicular transport.