The rapid induction of the proto-oncogene c-fos by growth factors and other bioactive agents, and the recent evidence that the c-fos protein (Fos) is associated with transcriptional complexes, suggests that Fos may represent an integral part of an intracellular messenger pathway that triggers changes in gene expression and ultimately phenotypic alterations. This report examines the role of c-fos in growth factor stimulation of transin, a matrix-degrading secreted metalloproteinase. Platelet-derived growth factor (PDGF) stimulation of transin RNA was blocked by a selective reduction in Fos synthesis with antisense c-fos mRNA, whereas epidermal growth factor (EGF) stimulation of transin occurred despite an equivalent inhibition of Fos levels. The stimulatory effect of both PDGF and EGF on transin transcription involved factors recognizing the sequence TGAGTCA, which is found in the transin promoter and is reported to be a binding site for the transcriptional factor Jun/AP-1 and for associated Fos and Fos-related complexes. Thus both Fos-dependent and Fos-independent pathways exist for growth factor regulation of gene expression, and both effects may be mediated through the same cis-acting transcription element.
We show that the product of the protooncogene c-rel is a constituent of an NF-#cB-like complex that binds to the id site originally identified in the enhancer of immunoglobulin K light chain gene. c-rel protein synthesized in bacteria binds to the ic site in a sequence-specific manner. The rel-,cB complex can be disrupted by incubation with anti-rel antibodies. The rel protein can form oligomers. The c-rel protein can activate transcription from promoters containing icB sites; v-rel, on the other hand, suppresses the transcription of genes linked to #cB sites. Thus, v-rel may interfere with the normal transcriptional machinery of the cell by acting as a dominant negative mutant.
We utilized a line of transgenic mice expressing Photinus luciferase complementary DNA (cDNA) under the control of a nuclear factor kappa B (NF-kappaB)-dependent promoter (from the 5' human immunodeficiency virus-1 [HIV-1] long terminal repeat) to examine the role of NF-kappaB activation in the pathogenesis of systemic inflammation induced by bacterial endotoxin (lipopolysaccharide [LPS]). After intraperitoneal injection of E. coli LPS, these mice displayed a time- and dose-dependent, organ-specific pattern of luciferase expression, showing that NF-kappaB-dependent gene transcription is transiently activated in multiple organs by systemic LPS administration. Luciferase expression in liver could be specifically blocked by intravenous administration of replication-deficient adenoviral vectors expressing a dominant inhibitor of NF-kappaB (IkappaB-alphaDN), confirming that luciferase gene expression is a surrogate marker for NF-kappaB activation in this line of mice. After treatment with intraperitoneal LPS, the mice were found to have increased lung tissue messenger RNA (mRNA) expression of a variety of cytokines that are thought to be NF-kappaB-dependent, as well as elevated serum concentrations of presumed NF-kappaB-dependent cytokines. In lung tissue homogenates, a close correlation was identified between luciferase activity and KC levels. These studies show that systemic treatment with LPS orchestrates a multiorgan NF-kappaB-dependent response that likely regulates the pathobiology of systemic inflammation.
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