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  • Title: Increased affinity to canalicular P-gp via formation of lipophilic ion-pair complexes with endogenous bile salts is associated with mw threshold in hepatobiliary excretion of quaternary ammonium compounds.
    Author: Song IS, Choi MK, Jin QR, Shim WS, Shim CK.
    Journal: Pharm Res; 2010 May; 27(5):823-31. PubMed ID: 20221674.
    Abstract:
    OBJECTIVES: We intended to elucidate the mechanism of the molecular weight (Mw) threshold (i.e., 200 +/- 50) for appreciable hepatobiliary excretion of quaternary ammonium compounds (QACs) in rats. METHODS: We measured the effect of ion-pair complexation of QACs with taurodeoxycholate (TDC), an endogenous anionic bile salt, on the apparent partition coefficients (APC) of QACs between n-octanol and phosphate buffer, and the inhibition of organic cation transporter1 (OCT1)- and P-glycoprotein (P-gp)-mediated transport of representative substrates. RESULTS: By measuring the APC, we demonstrated that there is a Mw threshold of 200 +/- 50 in the ion-pair complexation of QACs with an endogenous bile salt, TDC. We also demonstrated, by measuring the inhibition of relevant transports, that a Mw threshold of 200 +/- 50 exists for the binding of QACs to canalicular P-gp, but not for sinusoidal OCT1. The Mw threshold values for ion-pair formation and P-gp binding were identical and consistent with the reported Mw threshold value for appreciable biliary excretion of QACs in rats. CONCLUSIONS: Mw-dependent binding of QACs to canalicular P-gp contributes in part to the mechanism of the Mw threshold of 200 +/- 50. The formation of lipophilic ion-pair complexes with bile salts, followed by stronger binding to canalicular P-gp, appears to accelerate biliary excretion of QACs with a high Mw.
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