Hepatic Niemann-Pick C1–like 1 regulates biliary cholesterol concentration and is a target of ezetimibe
Ryan E. Temel, … , Lisa-Mari Nilsson, Liqing Yu
Ryan E. Temel, … , Lisa-Mari Nilsson, Liqing Yu
Published July 2, 2007
Citation Information: J Clin Invest. 2007;117(7):1968-1978. https://doi.org/10.1172/JCI30060.
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Hepatic Niemann-Pick C1–like 1 regulates biliary cholesterol concentration and is a target of ezetimibe

Abstract

Niemann-Pick C1–like 1 (NPC1L1) is required for cholesterol absorption. Intestinal NPC1L1 appears to be a target of ezetimibe, a cholesterol absorption inhibitor that effectively lowers plasma LDL-cholesterol in humans. However, human liver also expresses NPC1L1. Hepatic function of NPC1L1 was previously unknown, but we recently discovered that NPC1L1 localizes to the canalicular membrane of primate hepatocytes and that NPC1L1 facilitates cholesterol uptake in hepatoma cells. Based upon these findings, we hypothesized that hepatic NPC1L1 allows the retention of biliary cholesterol by hepatocytes and that ezetimibe disrupts hepatic function of NPC1L1. To test this hypothesis, transgenic mice expressing human NPC1L1 in hepatocytes (L1-Tg mice) were created. Hepatic overexpression of NPC1L1 resulted in a 10- to 20-fold decrease in biliary cholesterol concentration, but not phospholipid and bile acid concentrations. This decrease was associated with a 30%–60% increase in plasma cholesterol, mainly because of the accumulation of apoE-rich HDL. Biliary and plasma cholesterol concentrations in these animals were virtually returned to normal with ezetimibe treatment. These findings suggest that in humans, ezetimibe may reduce plasma cholesterol by inhibiting NPC1L1 function in both intestine and liver, and hepatic NPC1L1 may have evolved to protect the body from excessive biliary loss of cholesterol.

Authors

Ryan E. Temel, Weiqing Tang, Yinyan Ma, Lawrence L. Rudel, Mark C. Willingham, Yiannis A. Ioannou, Joanna P. Davies, Lisa-Mari Nilsson, Liqing Yu

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Figure 1

NPC1L1 is expressed in L1-Tg mouse and human liver tissues.

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NPC1L1 is expressed in L1-Tg mouse and human liver tissues. (A) Tissues ...
(A) Tissues were collected from 3 male L1-Tg112 mice (3 months old), and equal amounts of tissue from each mouse were pooled and processed for preparation of membrane proteins as described previously (50). Membrane proteins from adrenal glands (25 μg) and other tissues (50 μg) were fractionated by 8% polyacrylamide gel in the presence of SDS and immunoblotted with a rabbit anti-human NPC1L1 (anti-hNPC1L1) antibody (L1Ab) (10) and a rabbit anti-rat RAP serum (21). RAP was used as a loading control. Lanes 1 and 2, liver; lane 3, jejunum; lane 4, kidney; lane 5, pancreas; lane 6, lung; lane 7, heart; lane 8, spleen; lane 9, muscle; lane 10, testis; lane 11, cerebrum; lane 12, cerebellum; lane 13, epididymal fat; lane 14, adrenal glands. Similar results were observed in L1-Tg20 mice. (B) Membrane proteins (50 μg) from L1-Tg112 mice were treated with or without Peptide:N-glycosidase F (PNGaseF; New England Biolabs) followed by immunoblotting using L1Ab. (C) Mouse liver homogenates and HepG2 cell lysates were immunoblotted with the 69B and RAP antibodies. (D) Mouse liver homogenates (2.5 μg) and cell lysates or human liver homogenates (50 μg) were immunoblotted with the preimmune serum from the rabbit from which the 69B antiserum was obtained. The same membrane was stripped and immunoblotted with 69B and RAP antibodies. (E) L1-Tg20 mouse liver homogenates (2.5 μg) and fresh human hepatocyte lysates or human liver homogenates (50 μg) were deglycosylated by Peptide:N-glycosidase F, followed by immunoblotting with preimmune serum and 69B antiserum.