Active enterohepatic cycling is not required for the choleretic actions of 24-norUrsodeoxycholic acid in mice
Jennifer K. Truong, Jianing Li, Qin Li, Kimberly Pachura, Anuradha Rao, Sanjeev Gumber, Claudia Daniela Fuchs, Andrew P. Feranchak, Saul J. Karpen, Michael Trauner, Paul A. Dawson
Jennifer K. Truong, Jianing Li, Qin Li, Kimberly Pachura, Anuradha Rao, Sanjeev Gumber, Claudia Daniela Fuchs, Andrew P. Feranchak, Saul J. Karpen, Michael Trauner, Paul A. Dawson
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Research Article Gastroenterology Hepatology

Active enterohepatic cycling is not required for the choleretic actions of 24-norUrsodeoxycholic acid in mice

Abstract

The pronounced choleretic properties of 24-norUrsodeoxycholic acid (norUDCA) to induce bicarbonate-rich bile secretion have been attributed to its ability to undergo cholehepatic shunting. The goal of this study was to identify the mechanisms underlying the choleretic actions of norUDCA and the role of the bile acid transporters. Here, we show that the apical sodium-dependent bile acid transporter (ASBT), organic solute transporter-α (OSTα), and organic anion transporting polypeptide 1a/1b (OATP1a/1b) transporters are dispensable for the norUDCA stimulation of bile flow and biliary bicarbonate secretion. Chloride channels in biliary epithelial cells provide the driving force for biliary secretion. In mouse large cholangiocytes, norUDCA potently stimulated chloride currents that were blocked by siRNA silencing and pharmacological inhibition of calcium-activated chloride channel transmembrane member 16A (TMEM16A) but unaffected by ASBT inhibition. In agreement, blocking intestinal bile acid reabsorption by coadministration of an ASBT inhibitor or bile acid sequestrant did not impact norUDCA stimulation of bile flow in WT mice. The results indicate that these major bile acid transporters are not directly involved in the absorption, cholehepatic shunting, or choleretic actions of norUDCA. Additionally, the findings support further investigation of the therapeutic synergy between norUDCA and ASBT inhibitors or bile acid sequestrants for cholestatic liver disease.

Authors

Jennifer K. Truong, Jianing Li, Qin Li, Kimberly Pachura, Anuradha Rao, Sanjeev Gumber, Claudia Daniela Fuchs, Andrew P. Feranchak, Saul J. Karpen, Michael Trauner, Paul A. Dawson

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Figure 5

norUDCA stimulates Cl currents mediated by TMEM16A.

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norUDCA stimulates Cl– currents mediated by TMEM16A. (A) Representative ...
(A) Representative whole-cell currents in MLC cells transfected with nontargeting siRNA or TMEM16A siRNA measured under basal conditions or during exposure to norUDCA (250 μM). Currents measured at –100 mV (black) or +100 mV (red), representing ICl are shown. Compound exposure is indicated by the black bar. A voltage-step protocol from a holding potential of –40 mV, with 450 ms steps from –100 to +100 mV in 20 mV increments. Currents demonstrated time-dependent activation at membrane potentials +100 mV. The I-V plot was generated from these protocols during basal (black) and norUDCA-stimulated (red) conditions. (B) Cumulative data demonstrating maximum increase in current density (pA/pF) in response to norUDCA in the absence or presence of TMEM16A siRNA silencing; n = 5–6 cells per group. Median values (line), interquartile range (boxes), and minimum to maximum values (whiskers) are shown. The data were evaluated for statistically significant differences using an ordinary 2-way ANOVA with a Tukey’s multiple-comparison test.