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  • Title: The kinetics of sulfobromophthalein uptake by rat liver sinusoidal vesicles.
    Author: Potter BJ, Blades BF, Shepard MD, Thung SM, Berk PD.
    Journal: Biochim Biophys Acta; 1987 Apr 09; 898(2):159-71. PubMed ID: 3828336.
    Abstract:
    The kinetics of bromo[35S]sulfophthalein (35S-BSP) binding by and uptake across the hepatocyte sinusoidal membrane were investigated using isolated rat liver sinusoidal membrane vesicles containing K+ as the principal internal inorganic cation. Uptake of 35S-BSP into vesicles was found to be temperature dependent, with maximum uptake between 35 and 40 degrees C; only binding occurred at or below 15 degrees C. Uptake at 37 degrees C was saturable and resolvable by Eadee-Hofstee analysis into two components: one with high affinity (Km = 53.1 microM) but low capacity, and the second of low affinity (Km = 1150 microM) but high capacity. By pre- or post-incubation, respectively, with unlabelled BSP, trans-stimulation and counter transport of 35S-BSP could also be demonstrated in these vesicles. Uptake was inhibited competitively using 5 microM Rose bengal and 10 microM indocyanine green, and non-competitively using 10 microM DIDS. Taurocholate did not inhibit uptake, and actually enhanced transport at concentrations greater than or equal to 250 microM. Imposition of inwardly directed inorganic ion gradients resulted in the enhancement of 35S-BSP transport when chloride ions were part of this gradient, irrespective of the cation employed whereas there was no apparent cation effect. However, substitution of 10 mM Na+ for 10 mM K+ as the internal cation resulted in a significant increase in uptake in the presence of external K+ as compared to Na+ gradients. This effect was not observed when 10 mM Tris+ was employed as the internal cation. The kinetics of 35S-BSP uptake by isolated sinusoidal membrane vesicles are indicative of facilitated transport. While the observed inorganic ion effects suggest a possible electrogenic component, the driving forces for hepatic BSP uptake remain uncertain. Isolated sinusoidal membrane vesicles provide a useful technique for studying hepatic uptake processes independent of circulatory or subsequent cellular phenomena.
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