4.7 Article

Exposure to peroxynitrite impacts the ability of anastellin to modulate the structure of extracellular matrix

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FREE RADICAL BIOLOGY AND MEDICINE
卷 206, 期 -, 页码 83-93

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ELSEVIER SCIENCE INC
DOI: 10.1016/j.freeradbiomed.2023.06.028

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Fibronectin; Extracellular matrix; Peroxynitrite; Matrix assembly; Cell adhesion; Nitration; Protein oxidation

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The extracellular matrix (ECM) of tissues is formed by proteins, proteoglycans, and glycosaminoglycans, and it plays a crucial role in maintaining tissue integrity. Peroxynitrite, an oxidant produced during inflammation, can modify fibronectin and impair its function. This study investigated the effects of peroxynitrite on the structure of ECM and its interactions with cellular components. The results suggest that peroxynitrite can influence ECM structure and may have implications in pathological conditions such as atherosclerosis.
The extracellular matrix (ECM) of tissues consists of multiple proteins, proteoglycans and glycosaminoglycans that form a 3-dimensional meshwork structure. This ECM is exposed to oxidants including peroxynitrite (ONOO-/ONOOH) generated by activated leukocytes at sites of inflammation. Fibronectin, a major ECM protein targeted by peroxynitrite, self-assembles into fibrils in a cell-dependent process. Fibrillation of fibronectin can also be initiated in a cell-independent process in vitro by anastellin, a recombinant fragment of the first type-III module in fibronectin. Previous studies demonstrated that modification of anastellin by peroxynitrite impairs its fibronectin polymerization activity. We hypothesized that exposure of anastellin to peroxynitrite would also impact on the structure of ECM from cells co-incubated with anastellin, and influence interactions with cell surface receptors. Fibronectin fibrils in the ECM of primary human coronary artery smooth muscle cells exposed to native anastellin are diminished, an effect which is reversed to a significant extent by pre-incubation of anastellin with high (200-fold molar excess) concentrations of peroxynitrite. Treatment with low or moderate levels of peroxynitrite (2-20 fold molar excess) influences interactions between anastellin and heparin polysaccharides, as a model of cell-surface proteoglycan receptors, and modulates anastellin-mediated alterations in fibronectin cell adhesiveness. Based on these observations it is concluded that peroxynitrite has a dose-dependent influence on the ability of anastellin to modulate ECM structure via interactions with fibronectin and other cellular components. These observations may have pathological implications since alterations in fibronectin processing and deposition have been associated with several pathologies, including atherosclerosis.

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