Carnitine: transport and physiological functions in the brain

International audienceCarnitine (4-N-trimethylammonium-3-hydroxybutyric acid), a compound necessary for a transfer of fatty acids for their oxidation within the cell, accumulates in brain although β-oxidation of fatty acids is very low in neurons. Carnitine accumulates to lower extent in the brain than in peripheral tissues and the mechanism of its transport through the blood-brain barrier is discussed, with the involvement of two transporters, OCTN2 and B0,+ being presented. A limitation by the blood-brain barrier of carnitine supply for the brain and the mechanism of its transport to neural cells by a protein belonging to neurotransmitters' transporters superfamily is further discussed. Due to the beneficial effects of administration of acetylcarnitine in case of patients with dementia, the role of this acylcarnitine is presented in the context of neuronal cell metabolism and the role of acetylcarnitine in the synthesis of acetylcholine. The roles of long-chain acyl derivatives of carnitine, in particular palmitoylcarnitine, responsible for interaction with the membranes, lipids acylation and specific interactions with proteins have been summarized. Stimulation of protein palmitoylation and a possibility of changing the acylation status of G proteins is described, as well as interaction of palmitoylcarnitine with protein kinase C. Diminished interaction of the isoform d of this kinase with GAP-43 (B-50, neuromodulin), whose expression increases upon accumulation of either carnitine or palmitoylcarnitine points to a possible regulation of differentiation by these compounds and their role in neuroregeneration

Involvement of OCTN2 and B 0,+ in the transport of carnitine through an in vitro model of the blood-brain barrier

Carnitine is known to accumulate in brain, therefore transport of carnitine through the blood-brain barrier was studied in an in vitro system using bovine brain capillary endothelial cells (BBCEC) grown on filter inserts in a co-culture system with glia

Localization of organic cation/carnitine transporter (OCTN2) in cells forming the blood-brain barrier

International audienceCarnitine β-hydroxy-γ-(trimethylammonio)butyrate – a compound necessary in the peripheral tissues for a transfer of fatty acids for their oxidation within the cell, accumulates in the brain despite low β-oxidation in this organ. In order to enter the brain, carnitine has to cross the blood-brain barrier formed by capillary endothelial cells which are in close interaction with astrocytes. Previous studies, demonstrating expression of mRNA coding two carnitine transporters – organic cation/carnitine transporter 2 (OCTN2) and B0,+ in endothelial cells, did not give any information on carnitine transporters polarity in endothelium. Therefore more detailed experiments were performed on expression and localization of a high affinity carnitine transporter OCTN2 in an in vitro model of the blood-brain barrier by real-time PCR, western blot analysis, and immunocytochemistry. The amount of mRNA was comparable in endothelial cells and kidney, when referred to housekeeping genes, it was, however, significantly lower in astrocytes. Polarity of OCTN2 localization was further studied in an in vitro model of the blood–brain barrier with use of anti-OCTN2 antibodies. Z-axis analysis of the confocal microscope pictures of endothelial cells, with anti-P-glycoprotein antibodies as the marker of apical membrane, showed OCTN2 localization at the basolateral membrane and in the cytoplasmic region in the vicinity of nuclei. Localization of OCTN2 suggest that carnitine can be also transported from the brain, playing an important role in removal of certain acyl esters