An advanced method for quantitative measurements of cholesterol crystallization

Abstract

BackgroundCholesterol crystallization within an atherosclerotic plaque significantly contributes to the acceleration of plaque rupture – a problematic event due to the current lack of specific treatments to prevent such formations. Modelling this pathogenic process is also difficult due to the lack of suitable experimental models that enable quantitative analysis of crystal formation and bioactivity screening of potential therapeutic compounds. AimTo develop an in vitro human cell model of cholesterol crystallization combined with an imaging system that incorporates both quantitative analysis and real-time continuous imaging of cholesterol crystal formation. Methods and resultsAn enhanced in vitro model of cholesterol crystallization was developed through the use of acetylated low-density lipoprotein (AcLDL) and 7-ketocholesterol as agents of foam cell induction within a human THP-1 monocytic cell line. Advanced confocal and polarizing microscopies were incorporated into the model so as to allow for quantitation of cholesterol crystallization, with the lipid-loaded group producing significantly greater numbers of cholesterol crystals than the untreated group. The utility of this system was also demonstrated by investigating the effects of the cholesterol-lowering drug lovastatin and therapeutic bile compound ursodeoxycholic acid (UDCA), showing that these drugs influence different aspects of cholesterol crystal formation. ConclusionsThe in vitro human THP-1 monocyte model of cholesterol crystallization provides an effective and efficient means of quantitating cholesterol crystallization in the pre-clinical stage of research. The model also allows for the screening of potentially therapeutic compounds that may be used in attenuating or preventing cholesterol crystallization.