Iron-doped diesel exhaust early-in-life inhalation-induced cardiopulmonary toxicity in chicken embryo: Roles of ferroptosis and acyl hydrocarbon signaling

Diesel exhaust (DE) is a major contributor to air pollution. Iron-doping could improve diesel burning efficacy and decrease emission, however, it will also change the composition of DE, potentially enhancing the toxicities. This study is aimed to assess iron-doped DE-induced cardiopulmonary toxicity in an established in ovo early-in-life inhalation exposure chicken embryo model, and to explore potential mechanisms. Ferrocene (205, 410, 820,1640 mg/L, equivalent to 75, 150, 300, 600 ppm iron mass) was added to diesel fuel, DE was collected from a diesel generator, and then exposed to embryonic day 18-19 chicken embryo via in ovo inhalation. Hatched chickens were kept for 0, 1, or 3 months, and then sacrificed. Histopathology, electrocardiography along with biochemical methods were used to assess cardiopulmonary toxicities. For mechanistic investigation, inhibitor for ferroptosis (ferrostatin-1) or Acyl hydrocarbon receptor (PDM2) were administered before DE (with or without iron-doping), and the cardiopulmonary toxicities were compared. Characterization of DE particles indicated that addition of ferrocene significantly elevated iron content. Additionally, the contents of major toxic polycyclic aromatic hydrocarbons decreased following addition of 820 mg/L ferrocene, but increased at other doses. Remarkable cardiopulmonary toxicities, in the manifestation of elevated heart rates, cardiac remodeling and cardiac/pulmonary fibrosis were observed in animals exposed to iron-doped DEs, in which the addition of ferrocene significantly enhanced the toxicities. Both ferrostatin-1 and PDM2 pretreatment could effectively alleviate the observed effects in animals exposed to iron-doped DE. Inhibition of AhR signaling seems to be capable of alleviating changes to ferroptosis related molecules following exposure to iron-doped DE, while inhibition of ferroptosis does not seem to affect AhR signaling molecules. In summary, iron-doping with ferrocene to diesel enhanced DE-induced cardiopulmonary toxicities in chicken embryos. Ferroptosis and AhR signaling both seem to participate in this process, in which AhR signaling seems to affect ferroptosis.