Expression of nitric oxide synthases and nitrotyrosine during blood-brain barrier breakdown and repair after cold injury.

This study was undertaken to determine whether the blood-brain barrier (BBB) breakdown and cerebral edema occurring post-trauma are associated with overexpression of the endothelial (e) and inducible (i) nitric oxide synthases (NOS), enzymes responsible for nitric oxide (NO) biosynthesis. These enzymes were determined quantitatively at the mRNA level and qualitatively at the protein level in the rat cerebral cortical cold injury model, during a period up to 6 days post-injury. In addition, peroxynitrite generation at the lesion site was detected by immunolocalization of nitrotyrosine as a marker of NO-superoxide interactions. These studies were correlated with the permeability status of the BBB by immunohistochemical detection of endogenous fibronectin extravasation in the same brains. BBB breakdown was immediate in lesion vessels, it was present as early as 10 minutes post-lesion and delayed in perilesional vessels that showed maximal BBB breakdown between 2-4 days. The BBB was restored to normal at 6 days post-lesion. An increase in both eNOS and iNOS mRNA was observed at the lesion site as compared with the contralateral hemisphere at 12 hours, 2 days, and 4 days. The mRNA returned to resting levels by 6 days. Increased eNOS protein was observed in the endothelium of permeable perilesional vessels and neovessels and in the endothelium of the hyperplastic pial vessels overlying the lesion site. iNOS protein was observed initially in polymorphonuclear leukocytes at the lesion site and later in macrophages, endothelial cells, and the smooth muscle cells of the overlying pial vessels. Furthermore, nitrotyrosine was demonstrated at the lesion site up to 5 days. Up-regulation of the NO synthases at both the mRNA and protein level accompanied by presence of nitrotyrosine during BBB breakdown and angiogenesis suggests that NO has a role in the pathogenesis of these processes.