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Merck

Small molecule activation of lecithin cholesterol acyltransferase modulates lipoprotein metabolism in mice and hamsters.

Metabolism: clinical and experimental (2011-10-18)
Zhu Chen, Sheng-ping Wang, Mihajlo L Krsmanovic, Jose Castro-Perez, Karen Gagen, Vivienne Mendoza, Ray Rosa, Vinit Shah, Timothy He, Steve J Stout, Neil S Geoghagen, Sang H Lee, David G McLaren, Liangsu Wang, Thomas P Roddy, Andrew S Plump, Brian K Hubbard, Christopher J Sinz, Douglas G Johns
RÉSUMÉ

The objective was to assess whether pharmacological activation of lecithin cholesterol acyltransferase (LCAT) could exert beneficial effects on lipoprotein metabolism. A putative small molecule activator (compound A) was used as a tool compound in in vitro and in vivo studies. Compound A increased LCAT activity in vitro in plasma from mouse, hamster, rhesus monkey, and human. To assess the acute pharmacodynamic effects of compound A, C57Bl/6 mice and hamsters received a single dose (20 mg/kg) of compound A. Both species displayed a significant increase in high-density lipoprotein cholesterol (HDLc) and a significant decrease in non-HDLc and triglycerides acutely after dosing; these changes tracked with ex vivo plasma LCAT activity. To examine compound A's chronic effect on lipoprotein metabolism, hamsters received a daily dosing of vehicle or of 20 or 60 mg/kg of compound A for 2 weeks. At study termination, compound treatment resulted in a significant increase in HDLc, HDL particle size, plasma apolipoprotein A-I level, and plasma cholesteryl ester (CE) to free cholesterol ratio, and a significant reduction in very low-density lipoprotein cholesterol. The increase in plasma CE mirrored the increase in HDL CE. Triglycerides trended toward a dose-dependent decrease in very low-density lipoprotein and HDL, with multiple triglyceride species reaching statistical significance. Gallbladder bile acids content displayed a significant and more than 2-fold increase with the 60 mg/kg treatment. We characterized pharmacological activation of LCAT by a small molecule extensively for the first time, and our findings support the potential of this approach in treating dyslipidemia and atherosclerosis; our analyses also provide mechanistic insight on LCAT's role in lipoprotein metabolism.

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Sigma-Aldrich
LCAT activator compound A, ≥98% (HPLC)