Abstract

Fibronectin (FN) is an abundant glycoprotein found in plasma and the extracellular matrix (ECM). It is present at high concentrations at sites of tissue damage, where it is exposed to oxidants generated by activated leukocytes, including peroxynitrous acid (ONOOH) formed from nitric oxide (from inducible nitric oxide synthase) and superoxide radicals (from NADPH oxidases and other sources). ONOOH reacts rapidly with the abundant tyrosine and tryptophan residues in ECM proteins, resulting in the formation of 3-nitrotyrosine, di-tyrosine, and 6-nitrotryptophan. We have shown previously that human plasma FN is readily modified by ONOOH, but the extent and location of modifications, and the role of FN structure (compact versus extended) in determining these factors is poorly understood. Here, we provide a detailed LC-MS analysis of ONOOH-induced FN modifications, including the extent of their formation and the sites of intramolecular and intermolecular cross-links, including Tyr-Tyr, Trp-Trp, and Tyr-Trp linkages. The localization of these cross-links to specific domains provides novel data on the interactions between different modules in the compact conformation of plasma FN and allows us to propose a model of its unknown quaternary structure. Interestingly, the pattern of modifications is significantly different to that generated by another inflammatory oxidant, HOCl, in both extent and sites. The characterization and quantification of these modifications offers the possibility of the use of these materials as specific biomarkers of ECM modification and turnover in the many pathologies associated with inflammation-associated fibrosis.

Highlights

  • Fibronectin (FN) is an abundant glycoprotein present both in plasma and the extracellular matrix (ECM) [1, 2]

  • There is strong literature evidence based on microscopy and biophysical methods suggesting that FN circulates in plasma in a compact conformation that is stabilized by electrostatic interaction between modules [8, 9]

  • We hypothesized that a experimental model where nitration sites and cross-links in FN exposed to ONOOH in a low (150 mM) and high (750 mM) NaCl concentration are identified by mass spectrometry may provide an “oxidative footprint” which can reveal important information about the impact of the tertiary structure on the susceptibility of FN to ONOOH

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Summary

Introduction

Fibronectin (FN) is an abundant glycoprotein present both in plasma and the extracellular matrix (ECM) [1, 2]. In the study reported here, we provide a detailed analysis of the location of modifications formed on Met, Tyr, and Trp (as major targets for ONOOH) within the FN structure and their relative extents of alteration, as well as identifying the sites of intramolecular and intermolecular cross-links.

Results
Conclusion

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