A Novel Inhibitor of Oxidosqualene:Lanosterol Cyclase Inhibits Very Low-Density Lipoprotein Apolipoprotein B100 (ApoB100) Production and Enhances Low-Density Lipoprotein ApoB100 Catabolism Through Marked Reduction in Hepatic Cholesterol Content

doi:10.1161/01.ATV.0000189158.28455.94

Published Online
on October 6, 2005

Arteriosclerosis, Thrombosis, and Vascular Biology. 2005
Published online before print October 6, 2005, doi: 10.1161/01.ATV.0000189158.28455.94

A more recent version of this article appeared on December 1, 2005

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Submitted on April 12, 2005
Accepted on September 26, 2005

A Novel Inhibitor of Oxidosqualene:Lanosterol Cyclase Inhibits Very Low-Density Lipoprotein Apolipoprotein B100 (ApoB100) Production and Enhances Low-Density Lipoprotein ApoB100 Catabolism Through Marked Reduction in Hepatic Cholesterol Content

Dawn E. Telford ; Sara M. Lipson ; P. Hugh R. Barrett ; Brian G. Sutherland ; Jane Y. Edwards ; Johannes D. Aebi ; Henrietta Dehmlow ; Olivier H. Morand ; and Murray W. Huff ^*

From the Robarts Research Institute, Vascular Biology Group (D.E.T., S.M.L., B.G.S., J.Y.E., M.W.H.); Departments of Medicine (D.E.T., J.Y.E., M.W.H.) and Biochemistry (S.M.L., M.W.H.), The University of Western Ontario, London, Canada; the School of Medicine and Pharmacology (P.H.R.B.), University of Western Australia, Perth, West Australia, Australia; and the Pharmaceuticals Division (J.D.A., H.D., O.H.M.), F. Hoffmann-La Roche Ltd, Basel, Switzerland. O.H.M.’s current address: Actelion Pharmaceuticals Ltd, Gewerbestrasse 16, Allschwil, CH-, 4123, Switzerland.

^* To whom correspondence should be addressed. E-mail: mhuff{at}uwo.ca.

Objective--Inhibition of 2,3-oxidosqualene:lanosterol cyclase(OSC), an enzyme in the cholesterol synthesis pathway, has theunique ability to inhibit cholesterol synthesis while simultaneouslyenhancing oxysterol synthesis. Our objectives were to determine,in vivo, if a novel OSC inhibitor reduced low-density lipoprotein(LDL) cholesterol and to define the mechanism(s) involved.

Methodsand Results--Miniature pigs received the OSC inhibitor RO0717625or placebo and a diet containing fat (34% of energy) and 400mg per day of cholesterol. Treatment decreased plasma totalcholesterol (-20%) and LDL cholesterol (-29%). ApolipoproteinB (apoB) kinetic parameters were determined. Very low-densitylipoprotein (VLDL) apoB pool size decreased 22% because of inhibitionof VLDL production (-43%). LDL apoB pool size decreased 22%because of a 1.5-fold increase in fractional catabolic rate(FCR). The increased FCR was associated with a 2-fold increasein hepatic LDL receptor mRNA. Hepatic total and microsomal cholesterolwere reduced by 16% and 27%, respectively. Plasma lathosterolconcentrations decreased 57%, reflecting inhibition of hepaticcholesterol synthesis. Treatment reduced plasma plant sterolsand decreased postprandial cholesterol transport in chylomicrons.

Conclusions--Anovel OSC inhibitor, RO0717625, decreased VLDL and LDL apoB100through decreased VLDL production and enhanced LDL clearance.Thus, OSC represents a potential therapeutic target for dyslipidemia.

Key words: oxidosqualene:lanosterol cyclase • apoB kinetics • LDL receptor • ABCG5 • ABCG8

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