Prenatal ozone exposure abolishes stress activation of Fos and tyrosine hydroxylase in the nucleus tractus solitarius of adult rat

Ozone (O₃) is widely distributed in the environment, with high levels of air pollution. However, very few studies have documented the effects on postnatal development of O₃ during pregnancy. The long-term effects of prenatal O₃ exposure in rats (0.5 ppm 12 h/day from embryonic day E5 to E20) were evaluated in the adult nucleus tractus solitarius (NTS) regulating respiratory control. Neuronal response was assessed by Fos protein immunolabeling (Fos-IR), and catecholaminergic neuron involvement by tyrosine hydroxylase (TH) labeling (TH-IR). Adult offspring were analyzed at baseline and following immobilization stress (one hour, plus two hours’ recovery); immunolabeling was observed by confocal microscopy. Prenatal O₃ increased the baseline TH gray level per cell (p < 0.001). In contrast, the number of Fos-IR cells, Fos-IR/TH-IR colabeled cells and proportion of TH double-labeled with Fos remained unchanged. After stress, the TH gray level (p < 0.001), number of Fos-IR cells (p < 0.001) and of colabeled Fos-IR/TH-IR cells (p < 0.05) and percentage of colabeled Fos-IR/TH-IR neurons against TH-IR cells (p < 0.05) increased in the control group. In prenatal-O₃ rats, immobilization stress abolished these increases and reduced the TH gray level (p < 0.05), indicating that prenatal O₃ led to loss of adult NTS reactivity to stress. We conclude that long-lasting sequelae were detected in the offspring beyond the prenatal O₃ exposure. Prenatal O₃ left a print on the NTS, revealed by stress. Disruption of neuronal plasticity to new challenge might be suggested.