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  • Title: [Low and very low density lipoproteins: pathogenetic and clinical significance].
    Author: Titov VN, Vostrov IA, Kaba SI, Ameliushkina VA, Shiriaeva IuK.
    Journal: Klin Med (Mosk); 2013; 91(1):20-7. PubMed ID: 23659066.
    Abstract:
    LDLP and VLDLP have different biological functions: phylogenetically older LDLP transfer FA that serve as substrates for intracellular production of energy and ATP while VLDLP transfer FA--precursors of cell membranes and eicosanoids. The cells absorb LDLP via apoB-100 endocytosis and VLDLP through apoE/B-100 receptors. VLDLP consist of palmitic and oleic VLDLP and LDLP of linoleic and linolenic LDLP. The contribution of LDLP to the development of HLP atherosclerosis and atheromatosis is negligible. LDLP form palmitic and oleic VLDLP with hydrated LDLP density. Blockade of LDLP absorption by apoB endocytosis and deficit of poly-FA constitute the etiological basis of atherosclerosis. Its pathogenetic basis is the excess of palmitic VLDLP with LDPL density in the intercellular space that block absorption of linoleic LDLP with all transferred SC poly-FA. Atheromatosis is clinically and prognostically most significant symptom of atherosclerosis associated with accumulation of ligand-free VLDLP and LDLP in arterial intima of the elastic type as the local pool of interstitial tissue for intravascular pool of intercellular medium. Type 2 diabetes mellitus in aged patients is a symptom of atherosclerosis resulting from SC poly-FA deficit and GLUT4 incompetence. Insulin-dependent cells differ in the degree of insulin resistance. Non-alcoholic fatty liver disease, synthesis of a physiological palmitic TG by hepatocytes and excessive formation of palmitic VLDLP in liver integrate pathogenesis of atherosclerosis and hepatic steatosis. The main pathogenetic factor is the excess of palmitic s-FA and palmitic TG.
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