Dual control of C-reactive protein gene expression by interleukin-1 and interleukin-6.

Human C-reactive protein (CRP) is the major acute phase reactant during acute inflammation. The human CRP promoter is expressed in an inducible and cell-specific manner when linked to the bacterial CAT gene and transfected into human hepatoma cell cultures. In this paper we analyze the effect of several recombinant cytokines or CRP promoter inducibility in human Hep3B cells. When cytokines are tested singly the major inducer of CRP-CAT fusions is interleukin-6 (IL-6). Maximal CAT gene expression, however, is only achieved when both interleukin-1 beta (IL-1 beta) and IL-6 are present. The response to the two cytokines is cooperative. Cooperativity is maintained when the CRP promoter is linked to a different coding region, that of the bacterial neomycin phosphotransferase II gene. With a series of 5' and 3' deletions we show the existence of two distinct and independent regions responsive to IL-6 and located upstream to the TATA box. The IL-1 effect is exerted at the level of downstream sequences that are probably important for optimal mRNA translatability or nuclear-cytoplasmic transport. Inducibility is not influenced by the activation of protein kinases C or A and does not require new protein synthesis.     

Metal-dependent binding of a nuclear factor to the rat metallothionein-I promoter.

Genomic footprinting studies in vivo and experiments using synthetic metal regulatory elements (MREs) in vitro suggest protein binding to the MREs of the mouse and rat metallothionein I (MT-I) genes. Using gel-retardation assays of promoter fragments, we observe a cadmium-dependent binding factor for the rat MT-I promoter in rat hepatoma cells. This factor is present in extracts from both uninduced and cadmium-induced cells, but requires the presence of cadmium to bind to the promoter. The formation of a cadmium-dependent complex is competed by an oligonucleotide containing two MREs. This competition is lost when when one of the MREs is mutated, indicating a requirement for at least two MREs for binding of this factor. The cadmium-dependent factor dissociates more rapidly from the MT-I promoter than does a factor that binds to a consensus Sp1 site present on the same DNA fragment. UV crosslinking analysis using nuclear extracts from cadmium induced cells, in the presence of an oligonucleotide probe containing both 5-bromodeoxyuridine and 32P-deoxycytidine, identifies a 39 kDalton protein associated with the metal inducible complex.     

Activation of interleukin-6 gene expression through the NF-kappa B transcription factor.

The promoter region of the interleukin-6 (IL-6) gene has a putative NF-kappa B-binding site. We found that a fragment of the IL-6 promoter containing the site specifically binds highly purified NF-kappa B protein and the NF-kappa B protein in nuclear extracts of phorbol ester-induced Jurkat cells. Mutations of the NF-kappa B site abolished complex formation with both purified NF-kappa B and the nuclear extract protein. Transient expression of chloramphenicol acetyltransferase (CAT) plasmids containing the IL-6 promoter revealed very little activity of the promoter in U-937 monocytic cells and in HeLa cells before stimulation. However, stimulation of U-937 and HeLa cells by inducers of NF-kappa B led to a dramatic increase in CAT activity. Mutations in the NF-kappa B-binding site abolished inducibility of IL-6 promoter-cat constructs in U-937 cells by lipopolysaccharide, tumor necrosis factor alpha, the double-stranded RNA poly(IC), or phytohemagglutinin and in HeLa cells by tumor necrosis factor alpha and drastically reduced but did not completely eliminate inducibility in HeLa cells stimulated by double-stranded RNA poly(IC) or phorbol 12-myristate 13-acetate. These results suggest that NF-kappa B is an important mediator for activation of the IL-6 gene by a variety of IL-6 inducers in both U-937 and HeLa cells and that alternative inducible enhancer elements contribute in a cell-specific manner to IL-6 gene induction. Because NF-kappa B is involved in the control of a variety of genes activated upon inflammation, NF-kappa B may play a central role in the inflammatory response to infection and tissue injury.     

On the mechanism for efficient repression of the interleukin-6 promoter by glucocorticoids: enhancer, TATA box, and RNA start site (Inr motif) occlusion.

The feedback inhibition of interleukin-6 (IL-6) gene expression by glucocorticoids represents a regulatory link between the endocrine and immune systems. The mechanism of the efficient repression of the IL-6 promoter by dexamethasone (Dex) was investigated in HeLa cells transiently transfected with plasmid constructs containing different IL-6 promoter elements linked to the herpesvirus thymidine kinase gene (tk) promoter and the bacterial chloramphenicol acetyltransferase gene (cat) and cotransfected with cDNA vectors constitutively expressing either the active wild-type or inactive mutant human glucocorticoid receptor (GR). The induction by interleukin-1, tumor necrosis factor, phorbol ester, or forskolin of IL-6-tk-cat chimeric constructs containing a single copy of the IL-6 DNA segment from -173 to -151 (MRE I) or from -158 to -145 (MRE II), which derive from within the multiple cytokine- and second-messenger-responsive enhancer (MRE) region, was strongly repressed by Dex in a wild-type GR-dependent fashion irrespective of the inducer used. The induction by pseudorabies virus of an IL-6 construct containing the IL-6 TATA box and the RNA start site ("initiator" or Inr element) but not the MRE region was also repressed by Dex in the presence of wild-type GR. DNase I footprinting showed that the purified DNA-binding fragment of GR bound across the MRE, the TATA box, and the Inr site in the IL-6 promoter; this footprint overlapped that produced by proteins present in nuclear extracts from uninduced or induced HeLa cells. Imperfect palindromic nucleotide sequence motifs moderately related to the consensus GR-responsive element (GRE) motif were present at the Inr, the TATA box, and the MRE II site in the IL-6 promoter; although MRE I and a GR-binding site between -201 and -210 in IL-6 both lacked a discernible inverted repeat motif, their sequences showed considerable similarity with negative GRE sequences in other Dex-repressed genes. Surprisingly, chimeric genes containing MRE II, which lacks a recognizable GACGTCA cyclic AMP- and phorbol ester-responsive motif, were strongly induced by both phorbol ester and forskolin, suggesting that MRE II (ACATTGCACAATCT) may be the prototype of a novel cyclic AMP- and phorbol ester-responsive element. Taken together, these observations suggest that ligand-activated GR represses the IL-6 gene by occlusion not only of the inducible IL-6 MRE enhancer region but also of the basal IL-6 promoter elements.