Brandy Garzel, Tao Hu, Linhao Li, Yuanfu Lu, Scott Heyward, James Polli, Lei Zhang, Shiew-Mei Huang, Jean-Pierre Raufman, Hongbing Wang
Pharmaceutical research 2020 Jan 06The bile salt export pump (BSEP), a key player in hepatic bile acid clearance, has been the center of research on drug-induced cholestasis. However, such studies focus primarily on the direct inhibition of BSEP, often overlooking the potential impact of transcriptional repression. This work aims to explore the disruption of bile acid efflux caused by drug-induced BSEP repression. BSEP activity was analyzed in human primary hepatocytes (HPH) using a traditional biliary-clearance experiment and a modified efflux assay, which includes a 72-h pretreatment prior to efflux measurement. Relative mRNA and protein expressions were examined by RT-PCR and Western blotting, respectively. Metformin concentration-dependently repressed BSEP expression in HPH. Although metformin did not directly inhibit BSEP activity, longer metformin exposure reduced BSEP transport function in HPH by down-regulating BSEP expression. BSEP repression by metformin was found to be AMP-activated protein kinase-independent. Additional screening of 10 reported cholestatic non-BSEP inhibitors revealed that the anti-cancer drug tamoxifen also markedly repressed BSEP expression and reduced BSEP activity in HPH. Repression of BSEP alone is sufficient to disrupt hepatic bile acid efflux. Metformin and tamoxifen appear to be prototypes of a class of BSEP repressors that may cause drug-induced cholestasis through gene repression instead of direct BSEP inhibition.
Brandy Garzel, Tao Hu, Linhao Li, Yuanfu Lu, Scott Heyward, James Polli, Lei Zhang, Shiew-Mei Huang, Jean-Pierre Raufman, Hongbing Wang. Metformin Disrupts Bile Acid Efflux by Repressing Bile Salt Export Pump Expression. Pharmaceutical research. 2020 Jan 06;37(2):26
PMID: 31907698
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