, 2008 and Yadav et al., 2010). In fact, it has been shown that the stability of MCP-1 mRNA could be decreased by substances such as SP600125, an inhibitor of c-Jun NH2-terminal kinase, and atorvastatin, a 3-hydroxy-3-methylglutaryl-CoA reductase inhibitor ( Ding et al., 2010 and Tanimoto et al., 2008). The human monocytic lineage THP-1 was used to discover the connection between the impaired mononuclear cell migration observed in in vivo HQ-exposed mice and reduced MCP-1 secretion, and
because monocytes are scarce in the blood and BALF of mice. It was found that MCP-1 concentrations similar to those detected in ex vivo HQ-exposed tracheal tissue did not induce THP-1 migration in the Boyden chamber. These data suggest that the reduced level of mononuclear cell migration to the LPS-inflamed lung observed in HQ-exposed mice is Fulvestrant cell line dependent on impaired MCP-1 secretion by resident cells in the respiratory system. Taken together, the present study showed that a low level of in vivo exposure to HQ modifies mononuclear cell functions, as detected Dabrafenib during the host defence response in the lung, corroborating the theory that MCP-1 secretion impairment is an important pathway in HQ toxicity. The reduced number of macrophages found in the BALF could
impair the onset and resolution of the inflammatory process, which may contribute to the higher incidence of lung infections in HQ-exposed subjects. The authors declare that there are no conflicts of interest. The authors thank FAPESP for financial support (grant nos. 08/55382-7 and 09/03964-5). Sandra H.P. Farsky is a fellow of the Conselho Nacional de Pesquisa e Tecnologia (CNPq), Cristina B. Hebeda and Simone M. Bolonheis are Coordenação de Aperfeiçoamento de Nível Superior (CAPES) postdoctoral fellows.
The authors also thank Dr. Ana Campa for donating the THP-1 cells. “
“The noxious effects that pesticides have on human health have been widely studied in the last century. Observational studies on workers exposed to pesticide (Damalas and Eleftherohorinos, 2011), along with animal models of pesticides toxicity (Vandegehuchte and Janssen, RVX-208 2011) showed how these chemicals can be responsible for detrimental effects on health. Recently, a new approach aimed at evaluating different mechanisms by which pesticides could impact on human health, altering gene regulation has been developed. Among these new approaches, epigenetics seems a promising tool. Thus, understanding the molecular mechanisms able to mediate the effects of environment is of great importance. Epigenetics is the study of heritable changes in gene expression that occur without a change in the DNA sequence. Interestingly, epigenetic changes can be triggered by environmental factors. Environmental exposure to metals, persistent organic pollutants or endocrine disrupting chemicals has been shown to modulate epigenetic marks (Baccarelli and Bollati, 2009).