Thirteen-Week, Repeated Inhalation Exposure of F344/N Rats and B6C3F1 Mice to Ferrocene

Ferrocene (dicyclopentadienyl iron; CAS No. 102-54-5) is a relativelyvolatile compound used as a chemical intermediate, a catalyst,and an antiknock additive in gasoline. This organometallic chemicalis of particular interest because of its structural similaritiesto other metallocenes, some of which are carcinogenic. F344/Nrats and B6C3F₁ mice were exposed to 0, 3.0, 10, and 30 mg ferrocenevapor/m³, 6 hr/day, 5 days/week, for 13 weeks. During theseexposures, no rats or mice died, nor were any clinical signsof ferrocene-related toxicity observed. At the end of the exposures,male rats exposed to the lowest and highest level of ferrocenehad decreased body weight gains compared to filtered-air-exposedcontrol male rats, while body weight gains for all groups ofboth ferrocene- and filtered-air-exposed female rats were similar.Male mice exposed to ferrocene had no differences in body weightgains, compared to controls, but female mice had decreases inbody weight gains at the 10 and 30 mg/m³ exposure levels. Therewere exposure concentration- and exposure-time-related increasesin lung burdens of iron. The mean iron lung burden in rats exposedto 30 mg ferrocene vapor/m³ for 90 days was four times greaterthan the burden in control rats. No exposure-related changesin respiratory function, lung biochemistry, bronchoalveolarlavage cytology, total lung collagen, clinical chemistry, andhematology parameters were observed. This suggests that theaccumulations of iron in lung did not cause an inflammatoryresponse nor any functional impairment of the lung. There wereno indications of developing pulmonary fibrosis nor of any hematologictoxicity. No exposure-related gross lesions were seen in anyof the rats or mice at necropsy. Exposure-related histopathologicalterations, primarily pigment accumulations, were observedin the nose, larynx, trachea, lung, and liver of both species,and in the kidneys of mice. Lesions were most severe in thenasal olfactory epithelium where pigment accumulation, necrotizinginflammation, metaplasia, and epithelial regeneration occurred.Nasal lesions were observed in all ferrocene-exposed animalsand differed only in severity, which was dependent on the exposureconcentration. Histochernical stains of these target tissuesshowed the presence of iron ions. The results suggest that themechanism of ferrocene toxicity may be the intracellular releaseof ferrous ion through ferrocene metabolism, followed by eitheriron-catalyzed lipid peroxidation of cellular membranes or theiron-catalyzed Fenton reaction to form hydroxyl radicals thatdirectly react with other key cellular components, such as proteinor DNA.