The comparison of peroxynitrite action on bovine, porcine and human fibrinogens

Abstract

Abstract Subjects of bovine and porcine flocks are sometimes susceptible to death before time of slaughter, and some of those deaths may be due to cardiovascular problems connected with stress. The role of oxidative stress in farm animals is yet unexplored. Human fibrinogen seems to be highly susceptible to nitration. Peroxynitrite produced from superoxide and nitric oxide initiates noticeable changes in the structure of human fibrinogen molecule. The objective of this work is to compare the in vitro interactions of peroxynitrite with human fibrinogen and with fibrinogen from mammals of great economic importance, namely cows and pigs. Using western blots and ELISA we show that porcine fibrinogen is susceptible to tyrosine nitration induced by peroxynitrite whereas, bovine fibrinogen is more resistant. Moreover, porcine fibrinogen polymerization is susceptible to peroxynitrite action, whereas bovine fibrinogen is the least susceptible to inhibition of polymerization caused by peroxynitrite. These observed differences may result from differences in amino acid sequence of fibrinogen chains, mostly including tyrosine content and location in the Aα chain. Protection against toxic effects of peroxynitrite activity in the circulatory system seems to be important in avoiding cardiovascular diseases and may prevent production loss in pig breeding herds.