Dana Forrest scite author profile

Bile formation and its canalicular secretion are essential functions of the mammalian liver. The sister-of-p-glycoprotein (spgp) gene was shown to encode the canalicular bile salt export protein, and mutations in spgp gene were identified as the cause of progressive familial intrahepatic cholestasis type 2. However, target inactivation of spgp gene in mice results in nonprogressive but persistent cholestasis and causes the secretion of unexpectedly large amounts of unknown tetrahydroxylated bile acid in the bile. The present study confirms the identity of this tetrahydroxylated bile acid as 3 ␣ ,6 ␤ ,7 ␤ ,12 ␣ -tetrahydroxy-5 ␤ -cholan-24-oic acid. The data further show that in serum, liver, and urine of the spgp knockout mice, there is a significant increase in the concentration of total bile salts containing a large amount of tetrahydroxy-5 ␤ -cholan-24-oic acid. The increase in total bile acids was associated with up-regulation of the mRNA of cholesterol 7 ␣ -hydroxylase in male mice only. It is suggested that the lower severity of the cholestasis in the spgp knockout mice may be due to the synthesis of 3 ␣ ,6 ␤ ,7 ␤ ,12 ␣ -tetrahydroxy-5 ␤ -cholan-24-oic acid, which neutralizes in part the toxic effect of bile acids accumulated in the liver.

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Severe cholestasis induced by cholic acid feeding in knockout mice of sister of P-glycoprotein

Lam¹,

Liu²,

Forrest³

et al. 2003

Hepatology

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Intrahepatic cholestasis is often associated with impairment of biliary bile acid secretion, a process mediated by the sister of P-glycoprotein (Spgp or Abcb11) also known as the bile salt export pump (Bsep). In humans, mutations in the Spgp gene are associated with a fatal childhood disease, type 2 progressive familial intrahepatic cholestasis (PFIC2). However in mice, the "knockout" of Spgp only results in mild cholestasis. In this study, we fed spgp(-/-) knockout mice with a cholic acid (CA)-supplemented diet to determine whether a more pronounced PFIC2-like phenotype could be induced. Such mice developed severe cholestasis characterized by jaundice, weight loss, elevated plasma bile acid, elevated transaminase, cholangiopathy (proliferation of bile ductules and cholangitis), liver necrosis, high mortality, and wide-ranging changes in the mRNA expression of major liver genes (16/36 examined). A surprising observation was that the bile acid output and bile flow in CA-fed mutant mice was significantly higher than anticipated. This suggests that the spgp(-/-) mice are able to utilize an alternative bile salt transport system. However, unlike Spgp, this system is insufficient to protect the knockout mice from cholestasis despite its high capacity. In conclusion, the spgp(-/-) mice provide a unique model to investigate molecular pathways associated with cholestasis and related diseases.

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Severe Cholestasis Induced by Cholic Acid Feeding in Knockout Mice of Sister of P–Glycoprotein

Wang

Lam

Liu

et al. 2003

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Hepatic bile acid metabolism and expression of cytochrome P450 and related enzymes are altered in Bsep −/− mice

et al. 2014

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The bile salt export pump (BSEP/Bsep; gene symbol ABCB11/Abcb11) translocates bile salts across the hepatocyte canalicular membrane into bile in humans and mice. In humans, mutations in the ABCB11 gene cause a severe childhood liver disease known as progressive familial intrahepatic cholestasis type 2. Targeted inactivation of mouse Bsep produces milder persistent cholestasis due to detoxification of bile acids through hydroxylation and alternative transport pathways. The purpose of the present study was to determine whether functional expression of hepatic cytochrome P450 (CYP) and microsomal epoxide hydrolase (mEH) is altered by Bsep inactivation in mice and whether bile acids regulate CYP and mEH expression in Bsep (-/-) mice. CYP expression was determined by measuring protein levels of Cyp2b, Cyp2c and Cyp3a enzymes and CYP-mediated activities including lithocholic acid hydroxylation, testosterone hydroxylation and alkoxyresorufin O-dealkylation in hepatic microsomes prepared from female and male Bsep (-/-) mice fed a normal or cholic acid (CA)-enriched diet. The results indicated that hepatic lithocholic acid hydroxylation was catalyzed by Cyp3a/Cyp3a11 enzymes in Bsep (-/-) mice and that 3-ketocholanoic acid and murideoxycholic acid were major metabolites. CA feeding of Bsep (-/-) mice increased hepatic Cyp3a11 protein levels and Cyp3a11-mediated testosterone 2β-, 6β-, and 15β-hydroxylation activities, increased Cyp2b10 protein levels and Cyp2b10-mediated benzyloxyresorufin O-debenzylation activity, and elevated Cyp2c29 and mEH protein levels. We propose that bile acids upregulate expression of hepatic Cyp3a11, Cyp2b10, Cyp2c29 and mEH in Bsep (-/-) mice and that Cyp3a11 and multidrug resistance-1 P-glycoproteins (Mdr1a/1b) are vital components of two distinct pathways utilized by mouse hepatocytes to expel bile acids.

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Defective canalicular transport and toxicity of dietary ursodeoxycholic acid in theabcb11^−/−mouse: transport and gene expression studies

Liu

Sheps

Forrest

et al. 2013

American Journal of Physiology-Gastrointestinal and Liver Physi

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The bile salt export pump (BSEP), encoded by the abcb11 gene, is the major canalicular transporter of bile acids from the hepatocyte. BSEP malfunction in humans causes bile acid retention and progressive liver injury, ultimately leading to end-stage liver failure. The natural, hydrophilic, bile acid ursodeoxycholic acid (UDCA) is efficacious in the treatment of cholestatic conditions, such as primary biliary cirrhosis and cholestasis of pregnancy. The beneficial effects of UDCA include promoting bile flow, reducing hepatic inflammation, preventing apoptosis, and maintaining mitochondrial integrity in hepatocytes. However, the role of BSEP in mediating UDCA efficacy is not known. Here, we used abcb11 knockout mice ( abcb11 −/−) to test the effects of acute and chronic UDCA administration on biliary secretion, bile acid composition, liver histology, and liver gene expression. Acutely infused UDCA, or its taurine conjugate (TUDC), was taken up by the liver but retained, with negligible biliary output, in abcb11−/− mice. Feeding UDCA to abcb11−/− mice led to weight loss, retention of bile acids, elevated liver enzymes, and histological damage to the liver. Semiquantitative RT-PCR showed that genes encoding Mdr1a and Mdr1b (canalicular) as well as Mrp4 (basolateral) transporters were upregulated in abcb11−/− mice. We concluded that infusion of UDCA and TUDC failed to induce bile flow in abcb11−/− mice. UDCA fed to abcb11−/− mice caused liver damage and the appearance of biliary tetra- and penta-hydroxy bile acids. Supplementation with UDCA in the absence of Bsep caused adverse effects in abcb11−/− mice.

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Dana Forrest

Appearance of atypical 3α,6β,7β,12α-tetrahydroxy-5β-cholan-24-oic acid in spgp knockout mice

Severe cholestasis induced by cholic acid feeding in knockout mice of sister of P-glycoprotein

Severe Cholestasis Induced by Cholic Acid Feeding in Knockout Mice of Sister of P–Glycoprotein

Hepatic bile acid metabolism and expression of cytochrome P450 and related enzymes are altered in Bsep −/− mice

Defective canalicular transport and toxicity of dietary ursodeoxycholic acid in theabcb11^−/−mouse: transport and gene expression studies

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Dana Forrest

Appearance of atypical 3α,6β,7β,12α-tetrahydroxy-5β-cholan-24-oic acid in spgp knockout mice

Severe cholestasis induced by cholic acid feeding in knockout mice of sister of P-glycoprotein

Severe Cholestasis Induced by Cholic Acid Feeding in Knockout Mice of Sister of P–Glycoprotein

Hepatic bile acid metabolism and expression of cytochrome P450 and related enzymes are altered in Bsep −/− mice

Defective canalicular transport and toxicity of dietary ursodeoxycholic acid in theabcb11−/−mouse: transport and gene expression studies

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Defective canalicular transport and toxicity of dietary ursodeoxycholic acid in theabcb11^−/−mouse: transport and gene expression studies