Abstract
Tropoelastin (TE), the soluble monomer of elastin, is synthesized by elastogenic cells, such as chondrocytes, fibroblasts, and smooth muscle cells (SMCs). The C-terminal domain of TE interacts with cell receptors, and these interactions play critical roles in elastic fiber assembly. We recently found that oxidation of TE prevents elastic fiber assembly. Here, we examined the effects of oxidation of TE on cell interactions. We found that SMCs bind to TE through heparan sulfate (HS), whereas fetal lung fibroblasts (WI-38 cells) bind through integrin α(v)β(3) and HS. In addition, we found that oxidation of TE by peroxynitrite (ONOO(-)) prevented binding of SMCs and WI-38 cells and other elastogenic cells, human dermal fibroblasts and fetal bovine chondrocytes. Because the C-terminal domain of TE has binding sites for both HS and integrin, we examined the effects of oxidation of a synthetic peptide derived from the C-terminal 25 amino acids of TE (CT-25) on cell binding. The CT-25 peptide contains the only two Cys residues in TE juxtaposed to a cluster of positively charged residues (RKRK) that are important for cell binding. ONOO(-) treatment of the CT-25 peptide prevented cell binding, whereas reduction of the CT-25 peptide had no effect. Mass spectrometric and circular dichroism spectroscopic analyses showed that ONOO(-) treatment modified both Cys residues in the CT-25 peptide to sulfonic acid derivatives, without altering the secondary structure. These data suggest that the mechanism by which ONOO(-) prevents cell binding to TE is by introducing negatively charged sulfonic acid residues near the positively charged cluster.
Highlights
Tin (TE),2 the soluble precursor of elastin, is synthesized by elastogenic cells, such as chondrocytes, fibroblasts, endothelial cells, and smooth muscle cells (SMCs)
Arterial SMCs and WI-38 Lung Fibroblasts Bind to TE in a Dose-dependent Manner—Elastin has been shown to interact with proteins on the cell surface of elastogenic cells, such as HDFs [1] and Fetal bovine chondrocytes (FBCs) [2]
Because SMCs and fibroblasts are the major elastogenic cells in arteries and lungs, respectively, we examined whether SMCs and WI-38 lung fibroblasts bind to APRIL 15, 2011
Summary
SMCs bind to TE through cell surface proteoglycans via heparan sulfate (HS) chains, whereas fetal lung fibroblasts bind to TE via both HS moiety and integrin ␣v3 receptors. The binding of TE to the cell surface was mediated through the C-terminal domain of TE. We found that oxidation of TE or a peptide corresponding to the C-terminal domain of TE (CT25) by ONOOϪ prevented cell binding. We determined that ONOOϪ modified both Cys residues in the C-terminal domain of TE and thereby prevented cell binding
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