Inhibition of transcription of the beta interferon gene by the human herpesvirus 6 immediate-early 1 protein

Human herpesviruses (HHV) are stealth pathogens possessing several decoy or immune system evasion mechanisms favoring their persistence within the infected host. Of these viruses, HHV-6 is among the most successful human parasites, establishing lifelong infections in nearly 100% of individuals around the world. To better understand this host-pathogen relationship, we determined whether HHV-6 could interfere with the development of the innate antiviral response by affecting interferon (IFN) biosynthesis. Using inducible cell lines and transient transfection assays, we have identified the immediate-early 1 (IE1) protein as a potent inhibitor of IFN-beta gene expression. IE1 proteins from both HHV-6 variants were capable of suppressing IFN-beta gene induction. IE1 prevents IFN-beta gene expression triggered by Sendai virus infection, double-stranded RNA (dsRNA) and dsDNA transfection, or the ectopic expression of IFN-beta gene activators such as retinoic inducible gene I protein, mitochondrial antiviral signaling protein, TBK-1, IkappaB kinase epsilon (IKKepsilon), and IFN regulatory factor 3 (IRF3). While the stability of IFN-beta mRNA is not affected, IE1-expressing cells have reduced levels of dimerized IRF3 and nucleus-translocated IRF3 in response to activation by TBK-1 or IKKepsilon. Using nuclear extracts and gel shift experiments, we could demonstrate that in the presence of IE1, IRF3 does not bind efficiently to the IFN-beta promoter sequence. Overall, these results indicate that the IE1 protein of HHV-6, one of the first viral proteins synthesized upon viral entry, is a potent suppressor of IFN-beta gene induction and likely contributes to favor the establishment of and successful infection of cells with this virus.     

Bacterial lipopolysaccharide and gamma interferon induce transcription of beta interferon mRNA and interferon secretion in murine macrophages

Bacterial lipopolysaccharide (LPS) induces interferon (IFN) secretion and an antiviral state in murine peritoneal macrophages (PM). These cells secrete predominantly IFN-beta, as shown by neutralization assays with monoclonal antibodies. Secretion of IFN-beta is also induced in PM by IFN-gamma. LPS and IFN-gamma synergistically stimulated PM to produce IFN in amounts almost comparable to those induced by infection with Newcastle disease virus. Low levels of IFN-beta mRNA can be detected in freshly harvested PM by hybridization assays. The accumulation of this mRNA is markedly increased in PM treated with LPS or IFN-gamma, and it is further enhanced in the presence of the inhibitor of protein synthesis, cycloheximide. Similar studies were carried out on the RAW 264.7 line of transformed macrophages. These cells are induced to secrete IFN-beta by LPS but not by IFN-gamma, suggesting that this cytokine may elicit such specific response only in PM. IFN-beta mRNA is undetectable in untreated RAW 264.7 cells, and accumulation of this mRNA is induced by LPS but not by IFN-gamma. The secretion of IFN induced by these agents in PM and by LPS in RAW 264.7 cells and the corresponding accumulation of IFN-beta mRNA are blocked by an inhibitor of protein kinase C, staurosporine. The activity of this kinase is apparently necessary to stimulate accumulation of IFN-beta mRNA. The induction of IFN-beta by IFN-gamma appears to be a characteristic response of PM and may be at least in part responsible for the resistance of these cells to viral infections.     

Induction of HLA class I mRNA by cytokines in human fibroblasts: comparison of TNF, IL-1 and IFN-beta.

Expression of HLA class I antigens is known to be regulated by various cytokines at both the mRNA and protein levels. We have examined the induction of HLA-B7 by tumor necrosis factor alpha (TNF), interleukin 1 alpha (IL-1) and interferon beta (IFN-beta) in normal human diploid FS-4 fibroblasts. Optimal induction of HLA-B7 by TNF at 24 h was shown to require a continuous presence of TNF. Since TNF also induces IFN-beta in these cells and the latter cytokine itself has the capacity to upregulate HLA class I expression, we investigated the role of autocrine IFN-beta in the induction of HLA-B7 by TNF. Experiments with neutralizing polyclonal antibodies to recombinant IFN-beta showed that the induction of HLA-B7 mRNA by TNF was partially dependent on autocrine IFN-beta. However, TNF and IFN-beta induced HLA-B7 mRNA with similar kinetics and treatment with saturating concentrations of both TNF and IFN-beta resulted in an additive or possibly synergistic response. The latter findings support the idea that induction of HLA class I by TNF is not mediated solely by autocrine IFN-beta produced in response to TNF. In addition, experiments with the protein synthesis inhibitor cycloheximide suggested that the induction of mRNAs for both the heavy and light (beta 2-microglobulin) chains of the HLA class I antigen by TNF did not require de novo protein synthesis. IL-1 was also shown to increase steady-state mRNA levels of HLA-B7 with kinetics similar to those of TNF and IFN-beta in FS-4 cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

A possible role of autogenous IFN-beta for cytokine productions in human fibroblasts

It has been already known that human diploid fibroblasts are able to produce not only high levels of IFN-beta but also various kinds of cytokines by poly rI: poly rC, and some inflammatory cytokines are induced by IFN-beta gene activation. We also obtained similar results. However, in our system, cytokine productions were extremely enhanced by treating the cells with a low dose of type 1 IFN and the priming effects on cytokine productions were blocked by cycloheximide similar to those on IFN-beta productions. Most of cytokines were produced later than IFN-beta and synthesis patterns of their mRNA showed the same phenomena. We made clear that cytokine productions by poly rI: poly rC are mediated by secreted IFN-beta at a protein level using a monoclonal antibody against human IFN-beta. Further, it was shown that intra-cellular IFN-beta which is not secreted might also participate in cytokine productions. Meanwhile, IL-1beta induced various kinds of cytokines in human fibroblasts and production time courses of these cytokines were similar to those of poly rI: poly rC induced cytokines. Although secreted IFN-beta was not detected in IL-1beta stimulated culture, expression of IFN-beta mRNA was augmented. These results showed that priming effects of type 1 IFN on cytokine productions by poly rI: poly rC might not be the direct action, but successive IFN-beta production might be essential in the production processes of other cytokines. Further, it was suggested that inducible IFN-beta might also take part in IL-1beta-induced cytokine productions.     

Priming affects the activity of a specific region of the promoter of the human beta interferon gene.

Treatment of Daudi or HeLa cells with human interferon (IFN) alpha 8 before induction with either poly(I)-poly(C) or Sendai virus resulted in an 8- to 100-fold increase in IFN production. The extent of priming in Daudi cells paralleled the increase in the intracellular content of IFN-beta mRNA. IFN-alpha mRNA remained undetectable in poly(I)-poly(C)-treated Daudi cells either before or after priming. An IFN-resistant clone of Daudi cells was found to produce 4- to 20-fold more IFN after priming, indicating that priming was unrelated to the phenotype of IFN sensitivity. IFN treatment of either Daudi or HeLa cells transfected with the human IFN-beta promoter (-282 to -37) linked to the chloramphenicol acetyltransferase (CAT) gene resulted in an increase in CAT activity after induction with poly(I)-poly(C) or Sendai virus. A synthetic double-stranded oligonucleotide corresponding to an authentic 30-base-pair (bp) region of the human IFN-beta promoter between positions -91 and -62 was found to confer virus inducibility upon the reporter CAT gene in HeLa cells. IFN treatment of HeLa cells transfected with this 30-bp region of the IFN-beta promoter in either the correct or reversed orientation also increased CAT activity upon subsequent induction. IFN treatment alone had no detectable effect on the activity of either the 30-bp region or the complete human IFN promoter.     

NS1 proteins of avian influenza A viruses can act as antagonists of the human alpha/beta interferon response

Many viruses, including human influenza A virus, have developed strategies for counteracting the host type I interferon (IFN) response. We have explored whether avian influenza viruses were less capable of combating the type I IFN response in mammalian cells, as this might be a determinant of host range restriction. A panel of avian influenza viruses isolated between 1927 and 1997 was assembled. The selected viruses showed variation in their ability to activate the expression of a reporter gene under the control of the IFN-beta promoter and in the levels of IFN induced in mammalian cells. Surprisingly, the avian NS1 proteins expressed alone or in the genetic background of a human influenza virus controlled IFN-beta induction in a manner similar to the NS1 protein of human strains. There was no direct correlation between the IFN-beta induction and replication of avian influenza viruses in human A549 cells. Nevertheless, human cells deficient in the type I IFN system showed enhanced replication of the avian viruses studied, implying that the human type I IFN response limits avian influenza viruses and can contribute to host range restriction.     

Inducer-responsive expression of the cloned human interferon beta 1 gene introduced into cultured mouse cells.

A hybrid plasmid was constructed from pSV2-Ecogpt (Mulligan and Berg, 1981) and the cloned 1.8 kilobase chromosomal DNA segment which contains the human interferon (HIFN-beta 1) gene and its flanking sequences. Cultured mouse FM3A cells were transfected by the hybrid plasmid and several Ecogpt+ clones were selected. Southern blot analysis of the DNA from these mouse cell clones showed that two of them contained a few copies of the 1.8 kilobase human DNA. Synthesis of mRNA characteristic of the HIFN-beta 1 mRNA increased as measured by RNA blot analysis when those clones were treated with Newcastle disease virus or with poly(I):poly(C). In addition, the induced mouse cell clones gave rise to the synthesis of human IFN-beta 1. These results suggest the presence of a unique nucleotide sequence in the 1.8 kilobase DNA which is sufficient for the inducer-responsive expression of the human IFN-beta 1 gene.     

Critical role of a common transcription factor, IRF-1, in the regulation of IFN-beta and IFN-inducible genes.

Interferon regulatory factor 1 (IRF-1) is a protein that binds to cis-elements within the promoter of interferon (IFN)-beta and some IFN-inducible genes. We used a human fibroblast line, GM-637, to generate stable transfectants constitutively expressing IRF-1 mRNA in either the sense or antisense orientation. Upon induction with poly-(I).poly(C) or Newcastle disease virus, cells expressing sense IRF-1 mRNA produced significantly higher levels of IFN-beta mRNA and protein than control cells, whereas cells expressing antisense IRF-1 mRNA produced little or no IFN-beta mRNA and protein. Furthermore, clear differences were seen among the transfectants in the level of expression of two IFN-induced genes (2'-5'-oligoadenylate synthetase and class I HLA). Our data show that IRF-1 is essential for the induced expression of the IFN-beta gene. The results also indicate an important role of IRF-1 in the expression of IFN-inducible genes and suggest a role for IRF-1 in many other cytokine actions.     

Inducible expression of amplified human beta interferon genes in CHO cells.

Plasmid DNA containing the human beta-interferon (IFN-beta) gene and mouse dihydrofolate reductase cDNA was transfected into dihydrofolate reductase-negative Chinese hamster ovary cells. Dihydrofolate reductase-positive transformants were obtained, and cells containing amplified copies of mouse dihydrofolate reductase were selected by exposure to increasing methotrexate concentrations. These cells were found to express high levels of human IFN-beta after polyriboinosinic acid-polyribocytidylic acid superinduction or NDV infection; this was a result of coamplification of the IFN-beta gene. Levels of expression of 1 U/cell per day were achieved on superinduction, giving corresponding titers of up to 10(10) U/liter medium in culture supernatants. Constitutive production of IFN-beta rates of about 0.5% of superinduced rates was observed; cells producing these levels of IFN-beta had acquired resistance to cytotoxic antiviral effects of IFN-beta. Two forms of human IFN-beta were produced; a major glycosylated 23,000-dalton form and an unglycosylated 18,500-dalton form. The latter had greatly reduced antiviral activity. IFN-beta production was very sensitive to cellular growth rate; the highest levels were produced by density-arrested cultures. Regulation of IFN-beta production by polyriboinosinic acid-polyribocytidylic acid or by cell density effects required the presence of DNA sequences 5' to the IFN-beta-coding sequences; replacement of these sequences with the simian virus 40 early promoter resulted in uninducible, density-independent production of IFN-beta.