Monitoring genotoxicity of the environment using endemic organisms as sentinels requires the development of sensitive assays. Toward this end, we explored the feasibility of applying the alkaline single cell gel (SCG) or "comet" assay. This approach involves detection, under alkaline conditions, of cell DNA fragments which, on electrophoresis, migrate from the nuclear core, resulting in a "comet with tail" formation. Tail length has been correlated with level of genotoxicant exposure in a number of organisms. The fish used in this study were benthic feeding bullheads (Ameiurus nebulosus) and carp (Cyprinus carpio). On electrophoresis of erythrocyte DNA under alkaline conditions, we found a linear increase in the tail length/core width ratio over a broad range of cyclophosphamide doses. Freshly caught bullheads from seven different sites showed a wide range of DNA damage. Bullheads from Big Creek (western Lake Erie), Hamilton Harbour (western Lake Ontario), and the Detroit River gave ratios of 3.81 to 4.65. Based on polycyclic aromatic hydrocarbon (PAH) and polychlorinated biphenyl (PCB) levels, the sediment at these three sites is considered to be heavily polluted. Bullheads from southern Lake Huron, which is relatively clean, and from a fish hatchery in Brockport, New York, gave ratios between 1.30 and 1.40. Bullheads from Big Creek, maintained in the laboratory for 3 months, gave ratios which approached those seen in hatchery-bred fish. Results for carp were similar. Carp from Big Creek gave ratios of about 4.50, while carp from Lake Huron and laboratory-maintained carp gave values of 1.23 and 1.36, respectively. The results of the SCG procedure in bullheads and carp indicate that this assay is extremely sensitive and should be useful in detecting DNA damage caused by environmental contaminants.
C57BL/6 mice develop an allergic bronchopulmonary mycosis following intratracheal inoculation ofCryptococcus neoformans 24067. We determined that only low levels of tumor necrosis factor alpha (TNF-␣) are produced in the lungs following infection. Thus, the objective of the present studies was to determine whether treatment with a TNF-␣-expressing adenoviral vector (adenoviral vector with the murine TNF-␣ transgene under the control of the human cytomegalovirus promoter [AdTNF␣]) could switch the type 2 (T2) T-cell response/T1 T-cell response balance toward the T1 T-cell response. AdTNF␣ induced an increase in TNF-␣ expression at days 3 and 7. At days 7 to 14, the number of cryptococcal lung CFU continued to increase in both untreated and control adenoviral vector (empty adenovirus type 5 backbone)-treated mice, but the number was ultimately 100-fold lower following AdTNF␣ treatment. AdTNF␣ markedly increased neutrophil and macrophage numbers, and pulmonary eosinophilia did not develop. CXCL1, CXCL2, and gamma interferon were also up-regulated, while eotaxin, interleukin-4 (IL-4), and IL-5 were down-regulated. AdTNF␣ treatment also increased the number of CD80؉ and CD40 ؉ cells and decreased the number of CD86 ؉ cells (CD11b ؉ and CD11c ؉ ) in the lungs. Major histocompatibility complex class II levels on CD11b ؉ cells were increased. Whole-lung expression of inducible nitric oxide synthase was increased, while YM2 expression and acidic mammalian chitinase expression were decreased. None of these effects were observed with the control (empty) adenoviral vector. Overall, these results support the hypothesis that early TNF-␣ expression promotes a shift in T-cell and macrophage polarization from T2/alternatively activated macrophages toward T1/classically activated macrophages, resulting in control of the fungal infection and prevention of the allergic response.
The specificity of N-(deoxyguanosin-8-yl)-N-acetyl-2-aminofluorene (G-8-AAF) adducts in double-stranded DNAs from M13mp8 and M13mp9 bacteriophage was determined following transfection of modified DNA with multiple adducts into competent JM103 cells. Mutant phages were selected by phenotypic screening for colorless or light blue plaques indicating a defective beta-galactosidase marker enzyme. Mutation frequencies of phage DNA with G-8-AAF adducts were increased up to 8-fold in SOS-induced host cells as compared to the uninduced JM103 host cells. DNA sequencing of mutants from SOS-induced host cells indicated approximately 52% frameshifts and 39% base substitutions in M13mp8 DNA and 65% frameshifts and 25% base substitutions in M13mp9 DNA. Mutation spectra exhibited mutations at many sites within the bp 6200-6400 region; one mutational hotspot at position 6343-6347 (5' GGGGG 3') for frameshifts was also observed. The G-8-AAF adduct induced mostly single base deletions at this site. In contrast, a deacetylated adduct, N-(deoxyguanosin-8-yl)-2-aminofluorene (G-8-AF) in our previous experiments induced mostly single base additions at the same position indicating the ability of adduct structure to modulate the specificity of frameshift mutations. A number of other frameshift mutations (11 out of 29) were observed within non-repetitive and non-palindromic sequences. Molecular mechanisms for the induction of these mutations by DNA perturbations produced by the G-8-AAF adducts are discussed.
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