Dioxins and furans are believed to be among the most toxic chemicals known to man. The presence of these compounds in the emission gases of municipal solid waste incinerators and other combustion sources has raised debate over the location and the ultimate utility of incineration as an approach to waste management. Current methods used to measure dioxins and furans in combustion source emissions do not provide the real-time monitoring necessary to track average incinerator performance or upset emission levels. A study to design and develop a laser-induced fluorescence/continuous emission monitoring system to detect and quantify these compounds is being conducted. This paper reports the results of the study to date. Vapor-phase ultraviolet absorption spectra, absorption cross sections, and laser-induced fluorescence profiles are presented for three dioxins and two furans. These spectral data are needed for initial design and evaluation of the laser-induced fluorescence/continuous emission monitoring system approach.
To gain an understanding of the role the E2F1 transcription factor plays in cell physiology, the full length protein (E2F1) and an amino terminal deletion of 87 amino acids (E2F1d87) were constitutively expressed in NIH3T3 fibroblasts. Multiple cell lines were generated for each construct. These cells do not proliferate in media containing low serum and do not proliferate in soft agar, indicating that they are likely not transformed. However, both sets of cell lines show increased DNA synthesis and increased numbers of cells in S phase when cultured in media containing low serum, compared to the control cell lines. Cells expressing E2F1d87 (but not E2F1) have an extremely rounded morphology when cultured in 10% serum-containing media. These rounded cells lack detectable microfilaments, microtubules, and focal contacts. However, when these cells are cultured in low serum-containing media (0.5%), they attain the flattened morphology and cytoskeletal structure of normal NIH3T3 cells.
The transcription factor NF-kappaB (nuclear factor kappaB) is a central mediator of inflammatory and apoptotic signaling in the cell. The protein kinase RIP-2 is a member of the CARD protein family (caspase activation and recruitment domain, also known as CARD3, Ripk2, CARDIAK, RICK, and CCK), and has been shown to be an activator of NF-kappaB. In this study, it was demonstrated by transcriptional profiling and protein expression analysis that the inflammatory cytokines TNF-alpha, IL-1 beta, and IFN-gamma induced RIP-2 transcription and translation in endothelial cells. Two mechanistically distinct inhibitors of NF-kappaB signaling, sulfasalazine (NF-kappaB inhibitor) and WY-14643 [PPAR alpha (peroxisome proliferator-activated receptor alpha) agonist] that interfere with the transcription factor RELA (p65), suppressed TNF-alpha induced RIP-2 gene expression, which indicated that NF-kappaB signaling was involved in the cytokine-induced transcriptional activation of RIP-2 gene expression. Consistent with these observations, multiple NF-kappaB response elements were found in the upstream regions of the human and mouse RIP-2 genes. NF-kappaB-mediated regulation of RIP-2 gene and protein expression suggests an additional step in the regulation of NF-kappaB function as RIP-2 has been shown to positively modulate NF-kappaB by binding IKK gamma (I kappaB kinase gamma), a component of the IKK complex. These findings support a positive feed-forward mechanism of NF-kappaB regulation that involves NF-kappaB-dependent induction of RIP-2 transcription and a subsequent increase in RIP-2 protein levels in response to inflammatory cytokines. Elevated RIP-2 protein levels are then available to promote NF-kappaB function via interaction with IKK gamma. RIP-2 is the first reported NF-kappaB-dependent protein kinase that positively regulates NF-kappaB activity.
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