| Abstract | dc.description.abstract | Ozone, a major photochemical pollutant, produces rapid damages in the pulmonary airway tract and in the central nervous system. This study focused on the neural mechanisms underlying the adaptive responses to an acute ozone exposure. Vascular endothelial growth factor (VEGF) is a factor associated with cellular recovery following brain injury. The aim of this study was to assess and localize the cellular expression of VEGF, since the central respiratory areas show a neuroplasticity in response to ozone. Adult rats were subjected to 0.5 ppm ozone for 3 h and then recovered for further 3 h. The expression of VEGF was evaluated by immunocytochemistry in the central respiratory areas, i.e., the nucleus tractus solitarius (NTS) and the ventrolateral medulla (VLM). The data show a VEGF overexpression at the end of ozone exposure, which persisted during the 3-h recovery. Interestingly, using confocal analysis the bulk of VEGF labeling was observed in astroglial cell bodies and branches, while neuronal labeling was hardly noticed. Moreover, VEGF colocalized with IL-6 and TNF alpha in astrocytes closely apposed to blood vessel walls. The vasculature area was markedly increased (+58%) during post-ozone recovery. The data show that an acute ozone exposure affects primarily glial cells in the central nervous system. The VEGF up-regulation which persists after ozone exposure may contribute to brain repair and consecutive functional adaptations. | en_US |
