Abstract
G protein-coupled receptor signaling is mediated by three main mechanisms of action; these are the classical pathway, β-arrestin scaffold signaling, and the transactivation of protein-tyrosine kinase receptors such as those for EGF and PDGF. Recently, it has been demonstrated that G protein-coupled receptors can also mediate signals via transactivation of serine/threonine kinase receptors, most notably the transforming growth factor-β receptor family. Atherosclerosis is characterized by the development of lipid-laden plaques in blood vessel walls. Initiation of plaque development occurs via low density lipoprotein retention in the neointima of vessels due to binding with modified proteoglycans secreted by vascular smooth muscle cells. Here we show that transactivation of protein-tyrosine kinase receptors is mediated by matrix metalloproteinase triple membrane bypass signaling. In contrast, serine/threonine kinase receptor transactivation is mediated by a cytoskeletal rearrangement-Rho kinase-integrin system, and both protein-tyrosine kinase and serine/threonine kinase receptor transactivation concomitantly account for the total proteoglycan synthesis stimulated by thrombin in vascular smooth muscle. This work provides evidence of thrombin-mediated proteoglycan synthesis and paves the way for a potential therapeutic target for plaque development and atherosclerosis.
Highlights
G protein-coupled receptors (GPCR) transactivation of proteintyrosine kinase receptor (PTKR) and TGF-Rs mediates proteoglycan synthesis in human vascular smooth muscle cells (VSMC)
The initiating event in plaque development is described in the “response to retention hypothesis” of atherogenesis in which retention of low density lipoproteins (LDL) in the neointimal layer of blood vessel walls is due to changes in the synthesis of extracellular matrix proteoglycans secreted by vascular smooth muscle cells (VSMC) migrating out of the medial layer (14, 15)
We have previously demonstrated that the GPCR agonist thrombin transactivates the TGF- receptor Alk5, leading to the generation of phosphoSmad2(Ser465/467), and that this plays a partial role in the synthesis of proteoglycans mediated by thrombin stimulation in human VSMC (8)
Summary
GPCR transactivation of PTKRs and TGF-Rs mediates proteoglycan synthesis in human VSMC. Serine/threonine kinase receptor transactivation is mediated by a cytoskeletal rearrangement-Rho kinase-integrin system, and both proteintyrosine kinase and serine/threonine kinase receptor transactivation concomitantly account for the total proteoglycan synthesis stimulated by thrombin in vascular smooth muscle. The initiating event in plaque development is described in the “response to retention hypothesis” of atherogenesis in which retention of low density lipoproteins (LDL) in the neointimal layer of blood vessel walls is due to changes in the synthesis of extracellular matrix proteoglycans secreted by vascular smooth muscle cells (VSMC) migrating out of the medial layer (14, 15). We show that the mechanism of thrombin-stimulated transactivation of TGF- receptor signaling involves cytoskeletal rearrangement, Rho kinase (ROCK) signaling, and cell surface RGD binding integrins in human VSMC (see Fig. 8)
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