Hyperlipidemia is a heterogeneous disorder that refers to increased lipid levels in the blood. The purpose of this study was to investigate the molecular effects of novel carboxamide derivatives on a Show more
Hyperlipidemia is a heterogeneous disorder that refers to increased lipid levels in the blood. The purpose of this study was to investigate the molecular effects of novel carboxamide derivatives on a hyperlipidemic male rat model induced by Triton WR-1339 in comparison to fenofibrate using liver, endothelial, and adipose tissue samples. Nitrofuran-2-carboxamide derivatives were compared to fenofibrate to evaluate their molecular hypolipidemic actions. The gene expression profiles of pathways related to triglycerides including PPAR-alpha and beta-oxidation pathways were evaluated in an acute hyperlipidemia rat model using RT-PCR followed by protein-protein interaction networks that were produced using the STRING database. The three novel compounds showed a significant effect on the lipid profile. Several genes were reported to be overexpressed by Triton WR-1339, including CPT1 A in liver tissue and APOE in adipose tissue. Most of the overexpressed genes were downregulated by carboxamide derivatives, with significant decreases in CPT1 A and APOE gene expression levels. On the other hand, several genes were reported to be downregulated by Triton WR-1339, including ACOX1 in liver tissue, LPL, ACADM and ACAA2 in endothelial tissue, and LPL and ACADM in adipose tissue. Most of the downregulated genes were significantly upregulated by carboxamide derivatives. In summary, the three novel compounds were found to improve hypertriglyceridemia with significant changes in gene expression of key enzymes in lipids metabolism, mainly LPL. Show less
Hyperlipidemia is a known cause of coronary vascular diseases, which is a major cause of death in many parts of the world. Targeting several pathways that lead to increase in lipid profiles is of grea Show more
Hyperlipidemia is a known cause of coronary vascular diseases, which is a major cause of death in many parts of the world. Targeting several pathways that lead to increase in lipid profiles is of great potential to control diseases. 1H-indole-2-carboxamide derivatives were tested for their hypolipidemic activity at the molecular level in comparison with bezafibrate. The gene expression profiles of lipoprotein signaling and cholesterol metabolism and fatty acid metabolism PCR arrays were determined in rats with acute hyperlipidemia induced by Triton WR1339. Lipid profiles of serum from treated rats showed significant hypolipidemic effect by the compounds. Several genes of potential interest were reported to be overexpressed by Triton WR1339 including Apoc3, Apob, Hmgcs2, Apoa1, Apoe, Apof, acsl1, and Decr1. Most of the overexpressed genes were downregulated by N-(3-Benzoylphenyl)-1H-Indole-2-Carboxamide with significant decreases in Apoc3, Apob, Acaa2, Acsl1, and Slc247a5 gene expression levels. N-(4-Benzoylphenyl)-1H-Indole-2-Carboxamide and bezafibrate did not significantly affect the gene expression levels which were increased with acute hyperlipidemia induced by Triton WR1339. In conclusion, gene expression profiling identified the possible mechanism in which Triton WR1339 induces its acute hyperlipidemic effect which was reversed by the use of N-(3-Benzoylphenyl)-1H-Indole-2-Carboxamide. Show less