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Effect of early-to-mid gestational maternal nutrient restriction followed by adolescent-onset obesity on the gene expression of inflammatory markers in pericardial adipose tissue

Published online by Cambridge University Press:  27 October 2009

N. Patel
Affiliation:
Centre for Reproduction and Early Life, Institute of Clinical Sciences, University of Nottingham, UK
S. Sebert
Affiliation:
Centre for Reproduction and Early Life, Institute of Clinical Sciences, University of Nottingham, UK
D. S. Gardner
Affiliation:
Centre for Reproduction and Early Life, Institute of Clinical Sciences, University of Nottingham, UK
R. Bell
Affiliation:
Alberta Institute of Human Nutrition, University of Alberta, Edmonton, Canada
H. Budge
Affiliation:
Centre for Reproduction and Early Life, Institute of Clinical Sciences, University of Nottingham, UK
M. E. Symonds
Affiliation:
Centre for Reproduction and Early Life, Institute of Clinical Sciences, University of Nottingham, UK
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Abstract

Type
Abstract
Copyright
Copyright © The Authors 2009

Maternal nutrient restriction targeted during early fetal adipose tissue development can result in an enhanced inflammatory response within perirenal adipose tissue following adolescent-onset obesity despite no difference in fat mass compared with obese controls(Reference Sharkey, Fainberg and Wilson1). The extent to which comparable adaptations may occur within the fat surrounding the heart (i.e. pericardial) is not known and was therefore the aim of the present study.

Pregnant sheep (n 20) were randomly assigned to a normal (7 MJ/d) or nutrient-restricted diet (NRO; 3.5 MJ/d) from day 30 to day 80 of gestation (term 147 d) and fed to requirements thereafter. After birth the offspring from all the groups were kept with their mothers for the lactation period of 10 weeks. Mothers were fed to requirement for lactation purposes. To promote obesity the control (O) and NRO groups between the 4th and 12th months after birth were subjected to increased energy availability of concentrated pellets ad libitum and confined into a space of seventeen animals per 50 m2 to restrict physical activity (stocking environment). Once the sheep reached 1 year of age they were humanely killed. The pericardial tissue was immediately frozen in liquid N2 and total RNA was extracted followed by real-time PCR analysis. Analysis of results was calculated using the 2−ΔCT method with 18s used as a housekeeping gene.

Pericardial fat mass (g) was lower in the NRO group compared with controls (O 328 (se 39), NRO 232 (se 39); P<0.05). Gene expression of adiponectin, insulin receptor, TNFα, IL-18, glucose-regulated 78 kDa protein and GLUT4 were not different between groups. The mRNA abundance for both IL-6 and monocyte chemoattractant protein-1 were, however, both up regulated in the NRO group (fold change; O 0.075 (se 0.01), NRO 2.0 (se 1.0) and O 1.1 (se 0.2), NRO 2.2 (se 0.6) respectively; P<0.05).

Despite the NRO group possessing less pericardial adipose tissue, there was a pronounced up-regulation in gene expression of key inflammatory markers in this fat depot. The extent to which this up-regulation may contribute to the altered metabolic profile in the hearts of these offspring(Reference Chan, Sebert and Hyatt2) is currently under investigation.

References

1.Sharkey, D, Fainberg, HP, Wilson, V et al. (2008) FASEB Journal (Epublication ahead of print version; doi:10.1096/fj.08-114330).Google Scholar
2.Chan, LLY, Sebert, SP, Hyatt, MA et al. (2009) Am J Physiol Regul Integr Comp Physiol (Epublication ahead of print version; doi:10.1152/ajpregu.91019.2008).Google Scholar