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Placental Growth, Angiogenic Gene Expression, and Vascular Development in Undernourished Adolescent Sheep¹

Rowett Research Institute,³ Bucksburn, Aberdeen AB21 9SB, United Kingdom Department of Animal and Range Sciences,⁴ North Dakota State University, Fargo, North Dakota 58105 Hirosaki University,⁵ Hirosaki 036-8561, Japan

ABSTRACT

Limiting maternal nutrient intake during ovine adolescent pregnancy progressively depleted maternal body reserves, impaired fetal nutrient supply, and slowed fetal soft tissue growth. The present study examined placental growth, angiogenic gene expression, and vascular development in this undernourished adolescent model at Days 90 and 130 of gestation. Singleton pregnancies were established, and ewes were offered an optimal control (C; n = 14) or low (L [0.7 x C]; n = 21) dietary intake. Seven ewes receiving L intakes were switched to C intakes on Day 90 of gestation (L-C). Fetal body weight (P < 0.01) and glucose concentrations (P < 0.03) were reduced in L versus C pregnancies by Day 130, whereas L-C group values were intermediate. Placental cellular proliferation, gross morphology, and mass were independent of maternal nutrition at both Day 90 and 130. In contrast, capillary area density in the maternal caruncular portion of the placentome was reduced by 20% (P < 0.001) at both stages of gestation in L compared with C groups. Caruncular capillary area density was equivalent in the L and L-C groups at Day 130. Placental mRNA expression of five key angiogenic ligands or receptors increased (P < 0.001) between Days 90 and 130 of gestation. VEGFA mRNA expression was higher (P < 0.04) in L compared with C and L-C pregnancies at Day 130, but otherwise gene expression of the remaining angiogenic factors and receptors analyzed was unaffected by maternal intake. Undernourishing the pregnant adolescent dam restricts fetal growth independently of changes in placental mass. Alterations in maternal placental vascular development may, however, play a role in mediating the previously reported reduction in maternal and hence fetal nutrient supply.

adolescent pregnancy,, angiogenesis,, female reproductive tract,, fetus,, placenta,, placental vascular development,, pregnancy,, progesterone,, undernutrition

¹Supported by the Scottish Executive Environment and Rural Affairs Department and the National Institutes of Health.

Correspondence: ²FAX: 44 1224 716686; e-mail: Jacqueline.Wallace{at}rowett.ac.uk