Dietary beta-carotene protects lung and liver parenchyma of rats treated with monocrotaline.

Some studies have indicated that the injury induced by the hepato- and pneumotoxin monocrotaline (MCT) is in part mediated by oxidation. Because beta-carotene is a potent antioxidant, we hypothesized that it would protect the lung and liver parenchyma against MCT-induced injury. Twenty rats were assigned randomly to four groups. All rats were fed a standard AIN93G diet with or without beta-carotene. After 1 week on the purified diets, half of the rats fed the control (standard) diet and half of the rats fed the beta-carotene-supplemented diet were injected subcutaneously with 60 mg MCT/kg body weight or its vehicle (water). All rats were sacrificed at 4 weeks. Histological examination showed that beta-carotene alone did not affect lung or liver structure. On the other hand, lungs of MCT-treated rats had severe focal pneumonia, extensive deposition of collagen in the septa, marked inflammation of the small arteries and arterioles, and arterialization of the small venules. Livers of MCT-treated rats showed some fatty infiltration and diffuse hemorrhages, more prominent sometimes in the centrilobular area and sometimes in the periportal region. Concomitant treatment with beta-carotene protected the lung parenchyma from the inflammatory reaction and the septal fibrosis, but did not prevent cardiac right ventricular hypertrophy and only slightly reduced the thickening of the wall of small arteries and arterioles. Incidence of steatosis and hemorrhages was decreased in the liver. These results indicate that MCT-induced pulmonary vascular remodeling occurs in the absence of inflammatory cell infiltration. Furthermore, beta-carotene prevented inflammation and protected the lung and liver parenchyma of MCT-treated rats.