Inhibiting geranylgeranylation blocks growth and promotes apoptosis in pulmonary vascular smooth muscle cells

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Inhibiting geranylgeranylation blocks growth and promotes apoptosis in pulmonary vascular smooth muscle cells

William W. Stark Jr.¹, Michelle A. Blaskovich¹, Bruce A. Johnson², Yimin Qian³, Anil Vasudevan³, Bruce Pitt¹, Andrew D. Hamilton³, Saïd M. Sebti¹, and Paul Davies¹

Departments of ¹ Pharmacology, ² Medicine, and ³ Chemistry, University of Pittsburgh School of Medicine, Pittsburgh, Pennsylvania 15261

The activity of small GTP-binding proteins is regulated by a critical step in posttranslational processing, namely, the additionof isoprenoid lipids farnesyl and geranylgeranyl, mediated bythe enzymes farnesyltransferase (FTase) and geranylgeranyltransferaseI (GGTase I), respectively. We have developed compounds that inhibitthese enzymes specifically and in this study sought to determinetheir effects on smooth muscle cells (SMC) from the pulmonarymicrovasculature. We found that the GGTase I inhibitor GGTI-298suppressed protein geranylgeranylation and blocked serum-dependentgrowth as measured by thymidine uptake and cell counts. In theabsence of serum, however, GGTI-298 induced apoptosis in thesecells as measured by both DNA staining and flow cytometry. TheFTase inhibitor FTI-277 selectively inhibited protein farnesylationbut had a minor effect on growth and no effect on apoptosis. Tofurther investigate the role of geranylgeranylated proteins inapoptosis, we added the cholesterol synthesis inhibitor lovastatin,which inhibits the biosynthesis of farnesyl and geranylgeranylpyrophosphates. This also induced apoptosis, but when geranylgeraniolwas added to replenish cellular pools of geranylgeranyl pyrophosphate,apoptosis was reduced to baseline. In contrast, farnesol achievedonly partial rescue of the cells. These results imply that geranylgeranylatedproteins are required for growth and protect SMC against apoptosis.GGTase I inhibitors may be useful in preventing hyperplastic remodelingand may have the potential to induce the apoptotic regressionof established vascular lesions.

pulmonary vasculature; prenyltransferase inhibitors; lovastatin

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