Abstract

The hepatocyte canalicular membrane contains several primary-active ATP-dependent export carriers including one for bile salts and one for leukotriene C4 and related conjugates. The molecular identity of both transporters has not been fully elucidated. To establish a transport assay that allows the purification and identification of the proteins involved in ATP-dependent bile salt transport and in leukotriene C4 transport, we reconstituted solubilized hepatocyte canalicular membranes into phospholipid bilayers using a rapid dilution method. The proteoliposomes formed exhibited both [3H]taurocholate and [3H]leukotriene C4 uptake, which was much higher in the presence of ATP than in the presence of the non-hydrolyzable ATP-analog AdoPP[CH2]P or in the absence of nucleotides. Nucleotide requirement and osmotic sensitivity of [3H]taurocholate transport indicates true transport into the vesicle lumen. Optimized conditions for reconstitution included the addition of a high concentration of an osmolyte (glycerol) and the presence of exogenous phospholipids (0.3%) during solubilization. Highest transport rates were obtained by reconstitution into acetone/ether-precipitated Escherichia coli phospholipid supplemented with 20% cholesterol and by use of octylglucoside concentrations between 30 mM and 50 mM. Taurocholate transport was non-competitively inhibited by vanadate (Ki = 39 microM). The kinetic parameters of cyclosporin A inhibition (Ki = 2.6 microM for taurocholate and 4.3 microM for leukotriene C4 transport) as well as the affinities of taurocholate (Km = 12 microM) and leukotriene C4 (Km = 0.5 microM) in the proteoliposome system indicate that the reconstitution resulted in functionally active transport systems, which are representative of ATP-dependent transport in the intact plasma membrane.

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