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Transcription of the TNF gene is rapidly and transiently induced by LPS in cells of monocyte/macrophage lineage. Previous data suggested that multiple NF-kappaB/Rel binding sites play a role in the transcriptional response to LPS of the murine gene. However, the relevance of homologous sites in the human TNF gene remained a matter of controversy, partly because the high affinity NF-kappaB/Rel site located at -510 in the murine promoter is not conserved in humans. Here we used two sets of similarly designed human and mouse TNF promoter deletion constructs and overexpression of IkappaB in the murine macrophage cell line ANA-1 to show remarkable similarity in the pattern of the transcriptional response to LPS, further demonstrating the functional role of the distal promoter region located between -600 and -650. This region was characterized by mutagenesis of protein binding sites, including two relatively low affinity NF-kappaB/Rel sites, #2 and 2a. Mutation in each of the NF-kappaB sites resulted in 2- to 3-fold lower transcriptional activity in response to LPS. In contrast to LPS activation, the response to PMA was substantially lower in magnitude and required only the proximal promoter region. In summary, the functional topography of human and murine promoters when assayed in the same system has some marked similarities. Our observations support the notion that full LPS response of TNF gene requires both NF-kappaB and non-NF-kappaB nuclear proteins. Our data also suggest that the functional activity of a given kappaB site depends on the entire DNA sequence context in the promoter region.

Type

Journal article

Journal

Journal of immunology (Baltimore, Md. : 1950)

Publication Date

04/1999

Volume

162

Pages

4045 - 4052

Addresses

Engelhardt Institute of Molecular Biology, Russian Academy of Sciences, Moscow. kupras@imb.ac.ru

Keywords

Cell Line, Macrophages, Animals, Humans, Mice, Lipopolysaccharides, Tumor Necrosis Factor-alpha, NF-kappa B, DNA Mutational Analysis, Gene Expression Regulation, Binding Sites, Protein Binding, Sequence Homology, Nucleic Acid, Promoter Regions, Genetic, Transcriptional Activation