ABCB4 missense mutations D243A, K435T, G535D, I490T, R545C, and S978P significantly impair the lipid floppase and likely predispose to secondary pathologies in the human population

Edward J Andress,Michael Nicolaou,Farrell Mcgeoghan,Kenneth J Linton

doi:10.1007/s00018-017-2472-6

Edward J Andress, Michael Nicolaou + Show 2 more

Open Access

https://doi.org/10.1007/s00018-017-2472-6

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Abstract

Bile salts are natural detergents required to solubilise dietary fat and lipid soluble vitamins. They are synthesised in hepatocytes and secreted into the luminal space of the biliary tree by the bile salt export pump (BSEP), an ATP-binding cassette (ABC) transporter in the canalicular membrane. BSEP deficiency causes cytotoxic accumulation of bile salts in the hepatocyte that results in mild-to-severe forms of cholestasis. The resulting inflammation can also progress to hepatocellular cancer via a novel mechanism involving upregulation of proliferative signalling pathways. A second ABC transporter of the canalicular membrane is also critical for bile formation. ABCB4 flops phosphatidylcholine into the outer leaflet of the membrane to be extracted by bile salts in the canalicular space. These mixed micelles reduce the detergent action of the bile salts and protect the biliary tree from their cytotoxic activity. ABCB4 deficiency also causes cholestasis, and might be expected to cause cholangitis and predispose to liver cancer. Non-synonymous SNPs in ABCB4 have now been described in patients with liver cancer or with inflammatory liver diseases that are known to predispose to cancer, but data showing that the SNPs are sufficiently deleterious to be an etiological factor are lacking. Here, we report the first characterisation at the protein level of six ABCB4 variants (D243A, K435T, G535D, I490T, R545C, and S978P) previously found in patients with inflammatory liver diseases or liver cancer. All significantly impair the transporter with a range of phenotypes exhibited, including low abundance, intracellular retention, and reduced floppase activity, suggesting that ABCB4 deficiency is the root cause of the pathology in these cases.

Highlights

Cholesterol is a planar amphiphile comprising three cyclohexane rings and one cyclopentane ring, with a hydroxyl group on the A ring and a hydrocarbon carbon tail on the D ring
We address for the first time whether any of these six variants affect the stability, sub-cellular localisation or function of ABCB4, and are likely to cause cholestasis that predisposes to secondary chronic inflammation that would be required to drive the development of Sclerosing Cholangitis (SC), Biliary Cirrhosis (BC), and liver cancer
We have shown previously that the deleterious effect on the host cell is a direct consequence of ABCB4 PC-floppase activity [23, 24], which is why the inactive Walker B mutant ABCB4E558Q that lacks the catalytic base required for ATP hydrolysis, expresses to a highlevel irrespective of the ATP8B1/CDC50 status (Fig. 1a, b)

Summary

Introduction

Cholesterol is a planar amphiphile comprising three cyclohexane rings (rings A to C) and one cyclopentane ring (ring D), with a hydroxyl group on the A ring and a hydrocarbon carbon tail on the D ring. The simplest primary bile acid (chenodeoxycholic acid) has a second hydroxyl on the B ring and a carboxyl end to the hydrocarbon tail [1]. It is no longer planar and the axis of amphiphilicity extends the length of the molecule giving it a hydrophobic and a hydrophilic face. These features make bile acids extremely effective at solubilising dietary fat.

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