Abstract
Atherosclerosis is a common cardiovascular disease that involves the build-up of plaque on the inner walls of the arteries. Intraplaque neovacularization has been shown to be essential in the pathogenesis of atherosclerosis. Previous studies showed that small-molecule compounds targeting farnesyl transferase have the ability to prevent atherosclerosis in apolipoprotein E-deficient mice, but the underlying mechanism remains to be elucidated. In this study, we found that lonafarnib, a specific inhibitor of farnesyl transferase, elicits inhibitory effect on vascular endothelial capillary assembly in vitro in a dose-dependent manner. In addition, we showed that lonafarnib treatment led to a dose-dependent decrease in scratch wound closure in vitro, whereas it had little effect on endothelial cell proliferation. These data indicate that lonafarnib inhibits neovascularization via directly targeting endothelial cells and disturbing their motility. Moreover, we demonstrated that pharmacological inhibition of farnesyl transferase by lonafarnib significantly impaired centrosome reorientation toward the leading edge of endothelial cells. Mechanistically, we found that the catalytic β subunit of farnesyl transferase associated with a cytoskeletal protein important for the establishment and maintenance of cell polarity. Additionally, we showed that lonafarnib remarkably inhibited the expression of the cytoskeletal protein and interrupted its interaction with farnesyl transferase. Our findings thus offer novel mechanistic insight into the protective effect of farnesyl transferase inhibitors on atherosclerosis and provide encouraging evidence for the potential use of this group of agents in inhibiting plaque neovascularization.
Highlights
Cardiovascular diseases are the leading cause of death worldwide
Lonafarnib disturbs centrosome reorientation in vascular endothelial cells To gain more mechanistic insight into the inhibition of neovascularization by lonafarnib, we evaluated the effect of lonafarnib on the reorientation of the centrosome towards the leading edge of cells, which is a key step for endothelial cell motility[10]
It has been reported that farnesyl transferase inhibitors demonstrate the ability to prevent atherosclerosis in apolipoprotein E-deficient mice [7], but the biology behind its action remains an open question
Summary
Cardiovascular diseases are the leading cause of death worldwide. Atherosclerosis is a type of cardiovascular disease that involves the build-up of plaque on the inner walls of the arteries, resulting in decreased flexibility and elasticity of these vital transports. Intraplaque neovascularization has been shown to be an essential process in atherosclerosis[1]. As one of the main characteristics of the vulnerable plaque, neovascularization has been implicated to be PLOS ONE | DOI:10.1371/journal.pone.0122830. Lonafarnib Inhibits Neovascularization associated with plaque growth, leukocyte exchange and plaque instability[2]. These findings suggest that inhibition of neovascularizaton might be a therapeutic option for atherosclerosis [3,4]. The molecules involved in the process of neovascularizaton remain elusive
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