The effect of stone-wool has been studied in both in vivo long term sequential and in vitro methods in male Sprague-Dawley rats. Stone-wool was administered by single intratracheal instillation and the lungs were examined after 1, 3 and 6 months of exposure by morphological methods. UICC crocidolite was applied as a positive control. In addition, the effects of both fibres were examined in primary cultures of alveolar macrophages (AM) and type II pneumocytes (T2) by morphological, biochemical and immunological methods. By the end of 6 months stone-wool induced moderate pulmonary interstitial inflammation and fibrosis without progression, whereas crocidolite induced progressive interstitial inflammation and fibrosis as a function of time. Although stone-wool inhibited phagocytosis, it did not induce serious membrane damage to the cells examined and did not destroy their ultrastructure. It significantly reduced the activity of Cu,Zn/superoxide dismutase (SOD) and alkaline phosphatase (AP) in alveolar macrophages and significantly decreased the activity of AP and gamma-glutamyl transpeptidase (GGT) in type II pneumocytes. Crocidolite, on the other hand, decreased the activity of all enzymes (glutathione peroxidase, GSH-Px; glutathione reductase, GSH-Rd) of glutathione metabolism as well as alkaline phosphatase in alveolar macrophages. It decreased the activity of all enzymes in type II pneumocytes, except for Cu,Zn/SOD. On exposure to stone-wool, the production of inflammatory proteins, macrophage chemoattractant protein-1 (MCP-1) and macrophage inhibitory protein-1alpha (MIP-1alpha) increased in both cultured cells but did not reach the level induced by crocidolite. Our results suggested that stone-wool is less toxic than crocidolite. Whether it is carcinogenic or not, is still an open question.
Besides the well-known O157:H7 clone causing enterohaemorrhagic colitis and haemolytic uraemic syndrome in Europe, Japan and North America, the number of Escherichia coli isolates with non-motile (NM) phenotype has considerably increased. We supposed that spontaneous antibiotic resistance mutation could cause this phenotypic change. To model our hypothesis we isolated rifampicin-(Rif) and ampicillin-(Amp) resistant mutants from E. coli O157:H7 prototype strains 7785 and EDL933. Among Rif r mutants we could isolate strains with no or reduced motility, while the Amp r mutants became hypermotile. The biochemical profile of the mutants had not changed but phage sensitivity and generation time of the mutants were altered. Among the representative strains we did not find polymorphism with Southern blot analysis and no polymorphism was found in the fliC gene of the mutants. The described characteristics have proven to be stable. In a mice virulence assay by intravenous infections the virulence of the derivatives was also found to be changed. In summary, we found that the antibioticresistant phenotype in E. coli O157:H7 was coexpressed with several other phenotypic changes including motility and virulence. It can be assumed that expression of the involved phenotypes may be under the influence of a common regulatory cascade. Further work is needed to identify the components and mechanism of this regulatory system.
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