Manuela Almeida scite author profile

In an earlier report, we used differential cloning to identify genes that might be critical in controlling arterial neointima formation (Giachelli, C., N. Bae, D. Lombardi, M. Majesky, and S. Schwartz. 1991. Biochem. Biophys. . In this study, we sequenced the complete cDNA and conclusively identified one of these genes, 2B7, as rat osteopontin. Using immunochemistry and in situ hybridization, we found that medial smooth muscle cells (SMC) in uninjured arteries contained very low levels of osteopontin protein and mRNA. Injury to either the adult rat aorta or carotid artery using a balloon catheter initiated a qualitatively similar timedependent increase in both osteopontin protein and mRNA in arterial SMC. Expression was transient and highly localized to neointimal SMC during the proliferative and migratory phases of arterial injury, suggesting a possible role for osteopontin in these processes. In vitro, basic fibroblast growth factor (bFGF), transforming growth factor-,@ 8), and angiotensin II (AII), all proteins implicated in the rat arterial injury response, elevated osteopontin expression in confluent vascular SMC. Finally, we found that osteopontin was a novel component of the human atherosclerotic plaque found most strikingly associated with calcified deposits. These data implicate osteopontin as a potentially important mediator of arterial neointima formation as well as dystrophic calcification that often accompanies this process. (J. Clin. Invest. 1993Invest. . 92:1686Invest. -1696

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NF-κB Mediates αvβ3 Integrin-induced Endothelial Cell Survival

Scatena

et al. 1998

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The αvβ3 integrin plays a fundamental role during the angiogenesis process by inhibiting endothelial cell apoptosis. However, the mechanism of inhibition is unknown. In this report, we show that integrin-mediated cell survival involves regulation of nuclear factor-kappa B (NF-κB) activity. Different extracellular matrix molecules were able to protect rat aorta- derived endothelial cells from apoptosis induced by serum withdrawal. Osteopontin and β3 integrin ligation rapidly increased NF-κB activity as measured by gel shift and reporter activity. The p65 and p50 subunits were present in the shifted complex. In contrast, collagen type I (a β1-integrin ligand) did not induce NF-κB activity. The αvβ3 integrin was most important for osteopontin-mediated NF-κB induction and survival, since adding a neutralizing anti-β3 integrin antibody blocked NF-κB activity and induced endothelial cell death when cells were plated on osteopontin. NF-κB was required for osteopontin- and vitronectin-induced survival since inhibition of NF-κB activity with nonphosphorylatable IκB completely blocked the protective effect of osteopontin and vitronectin. In contrast, NF-κB was not required for fibronectin, laminin, and collagen type I–induced survival. Activation of NF-κB by osteopontin depended on the small GTP-binding protein Ras and the tyrosine kinase Src, since NF-κB reporter activity was inhibited by Ras and Src dominant-negative mutants. In contrast, inhibition of MEK and PI3-kinase did not affect osteopontin-induced NF-κB activation. These studies identify NF-κB as an important signaling molecule in αvβ3 integrin-mediated endothelial cell survival.

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Osteopontin Inhibits Mineral Deposition and Promotes Regression of Ectopic Calcification

Steitz

Speer

McKee

et al. 2002

The American Journal of Pathology

386

293

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Ectopic calcification, the abnormal calcification of soft tissues, can have severe clinical consequences especially when localized to vital organs such as heart valves, arteries, and kidneys. Recent observations suggest that ectopic calcification, like bone biomineralization, is an actively regulated process. These observations have led a search for molecular determinants of ectopic calcification. A candidate molecule is osteopontin (OPN), a secreted phosphoprotein invariantly associated with both normal and pathological mineral deposits. In the present study, OPN was found to be a natural inhibitor of ectopic calcification in vivo. Glutaraldehyde-fixed aortic valve leaflets showed accelerated and fourfold to fivefold greater calcification after subcutaneous implantation into OPN-null mice compared to wild-type mice. In vitro and in vivo studies suggest that OPN not only inhibits mineral deposition but also actively promotes its dissolution by physically blocking hydroxyapatite crystal growth and inducing expression of carbonic anhydrase II in monocytic cells and promoting acidification of the extracellular milieu. These findings suggest a novel mechanism of OPN action and potential therapeutic approach to the treatment of ectopic calcification.

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Osteopontin promotes vascular cell adhesion and spreading and is chemotactic for smooth muscle cells in vitro.

Liaw

Almeida

Hart

et al. 1994

Circulation Research

356

245

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Osteopontin is an Arg-Gly-Asp-containing acidic phosphoprotein recently shown to be upregulated in vascular smooth muscle during rat arterial neointima formation and in human atherosclerotic plaques. Functional studies showed that osteopontin promoted adhesion of both cultured aortic endothelial cells and aortic smooth muscle cells. Adhesion of vascular cells to osteopontin was dose dependent and half maximal when solutions containing 7 and 30 nmol/L osteopontin were used to coat wells for endothelial and smooth muscle cells, respectively. Smooth muscle cells adherent to osteopontin were spread after 60 minutes, whereas endothelial cells remained round, although flattened, at this time point but were spread at 90 minutes. Cell spreading on osteopontin was accompanied by the formation of focal adhesion plaques. A newly developed anti-osteopontin antibody completely inhibited adhesion of both cell types to osteopontin but not to fibronectin or vitronectin. In addition, the peptide GRGDSP orphogenic processes are thought to contrib-M/l ute significantly to vascular pathologies such as restenosis and atherosclerosis, as well as to the normal ontogenic development of the vasculature.' It is clear from studies of both endothelial cells and smooth muscle cells (SMCs) that proteins with cell adhesive properties may play key roles in mediating these events. Several examples are the growth effects of thrombospondin on both SMCs and endothelium, the contribution of laminin to in vitro angiogenesis,2 phenotypic changes in vascular SMCs plated on laminin or fibronectin substrates,3 and stimulation of endothelial cell migration with fibronectin.4 Thus, the ability of a molecule to provide an adhesive substrate for vascular cells may suggest a broad range of functions pertaining to cellular remodeling.In a previous study, we discovered the expression of osteopontin, a secreted adhesive glycoprotein, in vascular SMCs by use of a differential cloning strategy aimed at identifying genes that would distinguish the phenotypically distinct SMC types we have observed in vitro.5 Subsequently, we showed that endothelial denudation of either the rat aorta or carotid artery caused a dramatic increase in osteopontin mRNA and protein synthesis selectively in SMCs forming the arterial neointima.6 The spatial and temporal pattern of osteopon-

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Manuela Almeida

Osteopontin is elevated during neointima formation in rat arteries and is a novel component of human atherosclerotic plaques.

NF-κB Mediates αvβ3 Integrin-induced Endothelial Cell Survival

Osteopontin Inhibits Mineral Deposition and Promotes Regression of Ectopic Calcification

Osteopontin promotes vascular cell adhesion and spreading and is chemotactic for smooth muscle cells in vitro.

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