Hypertriglyceridemia is a result of the increase in the serum levels of lipoproteins, which are responsible for the transport of triglycerides and can be caused by genetic and/or metabolic factors. Animal models which either express or lack genes related to changes in the lipoproteins profile are useful to understand lipid metabolism. Apolipoprotein CIII (apoCIII) is an important modulator of hepatic production and peripheral removal of triglycerides. Mice that overexpress the apoCIII gene become hypertriglyceridemic, showing high concentrations of free fatty acids in the blood. Since hypertriglyceridemia is related to atherosclerosis, and the latter refers to cardiac alterations, this study aimed at evaluating the morphological, morphometric and quantitative profiles of the cardiac plexus, as well as the morphometric and histopathological aspects of the epicardial adipose tissue in human apoCIII transgenic mice. Therefore, 8-12-month-old male C57BL/6 mice that overexpressed human apoCIII (CIII) and their respective controls were used. Our results showed that overexpression of human apoCIII did not modify morphological or quantitative parameters of cardiac plexus neurons; however, age increased both, the area and the number of such cells. Furthermore, there was a direct correlation of this dyslipidemia to the thickening of periganglionar type 1 collagens. On the other hand, this overexpression caused epicardial adipose tissue inflammation and an increase in the area of the adipocytes, thus, favoring the recruitment of inflammatory cells in this tissue. In conclusion, this overexpression is harmful since it is related to an increase in cardiac adiposity, as well as to a predisposition to an inflammatory environment in the epicardial fat and to the incidence of cardiovascular diseases.
Keywords: Cardiac plexus; Epicardial fat; Intrinsic cardiac nervous system; Lipid metabolism; Triglycerides.
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