Usefulness of animal models of aspergillosis in studying immunity against Aspergillus infections.

Aspergillosis represents a spectrum of fungal diseases which are caused by fungi of the genus Aspergillus. Animal models have been developed and used to address immune-based mechanisms of defense against these fungi. Invertebrate models enabled mass screening of virulence attributes of Aspergillus species as well as mechanisms of acquired resistance to antifungal agents. This review represents a concise view of cellular and humoral participants in an immune response to Aspergillus gained mostly from rodent models of aspergillosis. The survey of immune defense mechanisms was given, including the role of innate immune cells (macrophages, neutrophils, monocytes, eosinophils, innate-like lymphocytes) and receptors in antifungal response, the significance of dendritic cells in activation of specific adaptive T cell-mediated immune responses and the regulatory mechanisms of excessive response. Insight into innate immune defense mechanisms gained using non-vertebrate models of infections with Aspergillus sp. was given as well. The contribution of animal models to the current knowledge of immune mechanisms of resistance or susceptibility to these fungi was stressed and the significance of data gained from these models in forming the basis for the design of therapeutic strategies in prevention and/or treatment of aspergillosis was pointed out.

Differential effects of cadmium administration on peripheral blood granulocytes in rats.

Infiltration of circulatory inflammatory cells is a common histopathological finding in target organs following cadmium administration, but there is paucity of data concerning their activity. In this study, the effects of sublethal (1 mg/kg) cadmium on peripheral blood polymorphonuclear (PMN) cells were examined 48 h following administration in rats, when tissue (liver and lung) infiltration of these cells was observed. Cadmium administration resulted in systemic inflammatory cytokine and acute phase response with an increase in circulatory neutrophil numbers and cells that express CD11b molecules. Rise in basic aspects of oxidative activity including intracellular myeloperoxidase (MPO), reactive oxygen (nitroblue tetrazolium/NBT cytochemical assay) and nitrogen (Griess assay) species production was observed in PMNs from cadmium-administered rats. A decrease in levels of mRNA for IL-1ß, TNF-α and IL-6 was noted, but production of these cytokines was affected differentially. Described effects of cadmium on PMNs add further to the understanding of inflammatory potential of this environmental contaminant.