Abstract 60: Perirenal Adipose Hypertrophy In A Congenic LH Rat: A Role For C17h6orf52

Abstract

Central obesity, high blood pressure, dyslipidemia, and insulin resistance are a collection of cardiovascular and metabolic risk factors that form the basis of the Metabolic Syndrome (MetS) and represent a major public health burden worldwide. The phenotypes that define MetS are all highly heritable, but their genetic complexity necessitates the use of animal models to tease apart novel pathways. The Lyon Hypertensive (LH) rat is a well-characterized model of MetS, exhibiting profound differences in features of MetS compared to its metabolically healthy control, the Lyon Normotensive (LN) rat. To understand the genomic causes of MetS, we developed a congenic rat model, where a portion of LN chromosome 17 is introgressed on the LH genomic background. Male and female LH congenic (CON) rats and LH controls were phenotyped for a variety of MetS characteristics, including body growth and composition by nuclear magnetic resonance (NMR), metabolic rate (Promethion system), and adipose tissue collection and histological examination. There were significant decreases in body weight in the CON rats of both sexes compared to LH. We also found significant female-specific increases in body fat and decreases in metabolic rate. Tissue collection revealed the source of the increased adiposity in the female CON rats was specific to perirenal white adipose tissue (PWAT) and was further explained by significant hypertrophy in those adipocytes. Genome resequencing of the parental strains identified a gene, C17h6orf52 , as a strong contender underlying the phenotype differences in the congenics, with predicted amino acid changes and the loss of Nr2f2 transcription factor binding sites.