Ezetimibe Promotes Brush Border Membrane-to-Lumen Cholesterol Efflux in the Small Intestine.

Takanari Nakano,Takayuki Murakoshi,Shigehiro Katayama,Hiraku Ono,Yasuhiro Takenaka,Takuya Awata,Ikuo Inoue,Liqing Yu

doi:10.1371/journal.pone.0152207

Takanari Nakano, Takayuki Murakoshi + Show 6 more

Open Access

https://doi.org/10.1371/journal.pone.0152207

Copy DOI

Abstract

Ezetimibe inhibits Niemann-Pick C1-like 1 (NPC1L1), an apical membrane cholesterol transporter of enterocytes, thereby reduces intestinal cholesterol absorption. This treatment also increases extrahepatic reverse cholesterol transport via an undefined mechanism. To explore this, we employed a trans-intestinal cholesterol efflux (TICE) assay, which directly detects circulation-to-intestinal lumen 3H-cholesterol transit in a cannulated jejunal segment, and found an increase of TICE by 45%. To examine whether such increase in efflux occurs at the intestinal brush border membrane(BBM)-level, we performed luminal perfusion assays, similar to TICE but the jejunal wall was labelled with orally-given 3H-cholesterol, and determined elevated BBM-to-lumen cholesterol efflux by 3.5-fold with ezetimibe. Such increased efflux probably promotes circulation-to-lumen cholesterol transit eventually; thus increases TICE. Next, we wondered how inhibition of NPC1L1, an influx transporter, resulted in increased efflux. When we traced orally-given 3H-cholesterol in mice, we found that lumen-to-BBM 3H-cholesterol transit was rapid and less sensitive to ezetimibe treatment. Comparison of the efflux and fractional cholesterol absorption revealed an inverse correlation, indicating the efflux as an opposite-regulatory factor for cholesterol absorption efficiency and counteracting to the naturally-occurring rapid cholesterol influx to the BBM. These suggest that the ezetimibe-stimulated increased efflux is crucial in reducing cholesterol absorption. Ezetimibe-induced increase in cholesterol efflux was approximately 2.5-fold greater in mice having endogenous ATP-binding cassette G5/G8 heterodimer, the major sterol efflux transporter of enterocytes, than the knockout counterparts, suggesting that the heterodimer confers additional rapid BBM-to-lumen cholesterol efflux in response to NPC1L1 inhibition. The observed framework for intestinal cholesterol fluxes may provide ways to modulate the flux to dispose of endogenous cholesterol efficiently for therapeutic purposes.

Highlights

Increased plasma cholesterol levels are associated with the development of atherosclerosis
The hepato-biliary system has been considered as the dominant route for reverse cholesterol transport (RCT), it has been repeatedly demonstrated that the small intestine excretes large amounts of endogenous cholesterol [1], a phenomenon designated as trans-intestinal cholesterol efflux (TICE) [2]
The circulating tracer abundance would affect the resulting decay per minute (DPM) in the perfusate, it varied between mice even when the similar tracer amount was injected

Summary

Introduction

Increased plasma cholesterol levels are associated with the development of atherosclerosis. The hepato-biliary system has been considered as the dominant route for RCT, it has been repeatedly demonstrated that the small intestine excretes large amounts of endogenous cholesterol [1], a phenomenon designated as trans-intestinal cholesterol efflux (TICE) [2]. There should be the other source(s) of cholesterol in the gut that accounts for more than a half of the residual increased FNS excretion These indicate that ezetimibe stimulates extrahepatic RCT, which would take place via the small intestine, because it is the site where the target molecule is expressed. It is uncertain how the inhibition of this influx transporter results in the increase

Methods

Results

Discussion

Conclusion