Induction of immunotoxicity by polycyclic hydrocarbons : role of the Ah locus

We have employed the plaque forming cell (PFC) response to sheep erythrocytes as well as lymphocyte proliferation to study the induction of immunotoxicity in AHH-inducible (Ah Locus positive, C57BL/6N; B6C3F1) and AHH non-inducible (Ah Locus negative, DBA2/N) mice following administration of polycyclic aromatic hydrocarbons. When two potent carcinogenic polycyclic hydrocarbons which induce AHH activity, 3-methylcholanthrene (MCA) or 1,2,5,6-dibenzanthracene [DB(a,h)A] were administered IP, immunotoxicity was observed in both AHH-inducible and AHH non-inducible animals. However, the AHH-inducible animals appeared to be more sensitive, and substantial suppression of a PFC response toxicity could be induced with doses as low as 14 mg/kg methylcholanthrene. While suppression of a mitogen response required a dose of 43-125 mg/kg. Administration of the weak carcinogen 1,2,3,4-dibenzanthracene [DB(a,c)A], IP, which similarly induces AHH activity in inducible animals, failed to induce immunotoxicity in either C57B1/6N or DBA/2N mice. In contrast to the results obtained following IP administration, when MCA was administered repeatedly (4X) via an intragastric (IG) route we observed striking immunosuppression of a PFC response in Ah locus negative (DBA/2) animals but minimal effects in Ah locus positive animals (C57B1/6). We finally observed that a single IP dose of MCA (125 mg/kg) to Ah locus positive animals substantially inhibited Natural Killer Cell activity but had more limited effects on the ability of an animal to reject a challenge by an immunogenic syngeneic fibrosarcoma

Alterations of gene expression in skin and lung of mice exposed to light and cigarette smoke

We previously showed that sunlight-mimicking light induces genotoxic damage not only in skin but also even in lung, bone marrow, and peripheral blood of hairless mice. Moreover, light and smoke acted synergically in the respiratory tract. To clarify the mechanisms involved, we investigated by cDNA-arrays the expression of 746 toxicologically relevant genes in skin and lungs of mice exposed for 28 days to light and/or environmental cigarette smoke. Glutathione-S-transferase-Pi and catalase were overexpressed in the lungs of mice exposed to light only. Moreover, the light induced in skin the expression of genes involved in carcinogenesis, photoaging, and production of genotoxic and oxidizing derivatives traveling at a distance. Smoke induced the expression of multiple genes in both skin and lung, which reflect adaptive responses and mechanisms related to cancer and, possibly, to emphysema and stroke. As shown in mice exposed to both light and smoke, the light tended to increase smoke-induced gene expression in lungs, while smoke tended to attenuate light-induced gene expression in skin. The oral administration of the nonsteroidal anti-inflammatory drug sulindac inhibited the light-induced overexpression of cyclooxygenase-2 and oxidative stress-related genes in skin, and down-regulated smoke-induced genes involved in oxidative stress, removal of damaged proteins, inflammation, and immune response in lung. These results provide a mechanistic insight explaining the systemic alterations induced by both light and smoke in mouse skin and lungs