Expression of cholesterol packaging and transport genes in human and rat placenta: impact of obesity and a high-fat diet.

Sally A V Draycott,Beverly S Muhlhausler,Raheela Khan,Zoe Daniel,Matthew J Elmes,Simon C Langley-Evans

doi:10.1017/s2040174419000606

Abstract

Evidence suggests that sub-optimal maternal nutrition has implications for the developing offspring. We have previously shown that exposure to a low-protein diet during gestation was associated with upregulation of genes associated with cholesterol transport and packaging within the placenta. This study aimed to elucidate the effect of altering maternal dietary linoleic acid (LA; omega-6) to alpha-linolenic acid (ALA; omega-6) ratios as well as total fat content on placental expression of genes associated with cholesterol transport. The potential for maternal body mass index (BMI) to be associated with expression of these genes in human placental samples was also evaluated. Placentas were collected from 24 Wistar rats at 20-day gestation (term = 21-22-day gestation) that had been fed one of four diets containing varying fatty acid compositions during pregnancy, and from 62 women at the time of delivery. Expression of 14 placental genes associated with cholesterol packaging and transfer was assessed in rodent and human samples by quantitative real time polymerase chain reaction. In rats, placental mRNA expression of ApoA2, ApoC2, Cubn, Fgg, Mttp and Ttr was significantly elevated (3-30 fold) in animals fed a high LA (36% fat) diet, suggesting increased cholesterol transport across the placenta in this group. In women, maternal BMI was associated with fewer inconsistent alterations in gene expression. In summary, sub-optimal maternal nutrition is associated with alterations in the expression of genes associated with cholesterol transport in a rat model. This may contribute to altered fetal development and potentially programme disease risk in later life. Further investigation of human placenta in response to specific dietary interventions is required.

Highlights

Maternal nutrition can have a profound impact on fetal development and future physiological function and metabolic health [1]
A similar pattern was observed for other key cholesterol-transport and metabolism genes in the placenta (Gpc3, P=0.072; Vil1, P=0.054), with 1.5-7 fold higher expression in placentas of dams exposed to a high linoleic acid (LA) diet, but only when dietary fat content was high
The mRNA of other placental genes was not different between body mass index (BMI) groups. This experiment aimed to test the hypothesis that maternal diet, fatty acid composition and quantity, and obesity would influence the expression of genes associated with cholesterol uptake and transport in rat and human placenta

Summary

Introduction

Maternal nutrition can have a profound impact on fetal development and future physiological function and metabolic health [1]. A number of dietary perturbations, including maternal undernutrition and low protein diets, have been associated with increased risk of obesity and cardiovascular disease in the adult offspring [2, 3]. There is emerging evidence from animal studies, that maternal high-fat diets have the potential to program metabolic outcomes in the offspring independent of the effects of maternal obesity. These effects appear to depend on the amount of fat in the diet [6], and on the fatty acid composition [7, 8]. Due to changes in population level patterns in dietary consumption [9, 10], attention has shifted toward the roles of polyunsaturated fats within the diet

Objectives

Methods

Results

Conclusion