A comprehensive study of phospholipid fatty acid rearrangements in the metabolic syndrome: correlations to organ dysfunction

Abstract

The balance within phospholipids (PL) between Saturated Fatty Acids (SFA) and mono- or poly- Unsaturated Fatty Acids (UFA), is known to regulate the biophysical properties of cellular membranes. As a consequence, perturbating this balance alters crucial cellular processes in many cell types, such as vesicular budding and the trafficking/function of membrane-anchored proteins. The worldwide spreading of the Western-diet, which is specifically enriched in saturated fats, has been clearly correlated with the emergence of a complex syndrome, known as the Metabolic Syndrome (MetS), which is defined as a cluster of risk factors for cardiovascular diseases, type 2 diabetes and hepatic steatosis. However, no clear correlations between diet-induced fatty acid redistribution within cellular PL, the severity/chronology of the symptoms associated to MetS and the function of the targeted organs have been established. In an attempt to fill this gap, we analyzed in the present study PL remodeling in rats exposed during 15 weeks to a High Fat/High Fructose diet (HFHF) in several organs, including known MetS targets. We show that fatty acids from the diet can distribute within PL in a very selective way, with PhosphatidylCholine being the preferred sink for this distribution. Moreover, in the HFHF rat model, most organs are protected from this redistribution, at least during the early onset of MetS, at the exception of the liver and skeletal muscles. Interestingly, such a redistribution correlates with clear-cut alterations in the function of these organs.