Abstract
Atherosclerosis, a chronic inflammatory disease, results in part from the accumulation of modified lipoproteins in the arterial wall and formation of lipid-laden macrophages, known as "foam cells." Recently, we reported that CD36, a scavenger receptor, contributes to activation of Vav-family guanine nucleotide exchange factors by oxidatively modified LDL in macrophages. We also discovered that CD36-dependent uptake of oxidized LDL (oxLDL) in vitro and foam cell formation in vitro and in vivo was significantly reduced in macrophages deficient of Vav proteins. The goal of the present study was to identify the mechanisms by which Vav proteins regulate CD36-dependent foam cell formation. We now show that a Vav-dynamin signaling axis plays a critical role in generating calcium signals in mouse macrophages exposed to CD36-specific oxidized phospholipid ligands. Chelation of intracellular Ca(2+) or inhibition of phospholipase C-γ (PLC-γ) inhibited Vav activation (85 and 70%, respectively, compared with vehicle control) and reduced foam cell formation (approximately 75%). Knockdown of expression by siRNA or inhibition of GTPase activity of dynamin 2, a Vav-interacting protein involved in endocytic vesicle fission, significantly blocked oxLDL uptake and inhibited foam cell formation. Immunofluorescence microscopy studies showed that Vav1 and dynamin 2 colocalized with internalized oxLDL in macrophages and that activation and mobilization of dynamin 2 by oxLDL was impaired in vav null cells. These studies identified previously unknown components of the CD36 signaling pathway, demonstrating that Vav proteins regulate oxLDL uptake and foam cell formation via calcium- and dynamin 2-dependent processes and thus represent novel therapeutic targets for atherosclerosis.
Highlights
The scavenger receptor CD36 is known to activate Vav proteins, which function as guanine nucleotide exchange factors (GEF) for Rho GTPases and scaffolds for assembly of various signaling proteins
Because PLC-␥ plays a critical role in intracellular calcium signaling, we demonstrated by IB with an antibody specific to phospho-phospholipase C-␥ (PLC-␥)1 (Fig. 2A) that NO2LDL induced a time-dependent increase in PLC-␥1 phosphorylation in MPM with a 3-fold increase seen at 30 min compared with the untreated control (0Ј min)
In this paper, we report that members of the Vav family of guanine nucleotide exchange factors regulate CD36-dependent foam cell formation via calcium and dynamin-dependent processes
Summary
The scavenger receptor CD36 is known to activate Vav proteins, which function as GEFs for Rho GTPases and scaffolds for assembly of various signaling proteins. Results: CD36-dependent activation of Vav proteins in macrophages by oxidized phospholipids was shown to trigger lipid uptake and foam cell formation by activating dynamin 2 and generating calcium signals. Conclusion: Vav family GEFs regulate CD36-mediated oxLDL uptake and foam cell formation via calcium and dynamin 2-dependent processes. We discovered that CD36-dependent uptake of oxidized LDL (oxLDL) in vitro and foam cell formation in vitro and in vivo was significantly reduced in macrophages deficient of Vav proteins. Immunofluorescence microscopy studies showed that Vav and dynamin 2 colocalized with internalized oxLDL in macrophages and that activation and mobilization of dynamin 2 by oxLDL was impaired in vav null cells These studies identified previously unknown components of the CD36 signaling pathway, demonstrating that Vav proteins regulate oxLDL uptake and foam cell formation via calcium- and dynamin 2-dependent processes and represent novel therapeutic targets for atherosclerosis
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