Functional similarities between human immunodeficiency virus type 1 and simian virus 40 kappa B proto-enhancers

Transcriptional enhancers in animal development and evolution

Regulatory DNAs serve as templates to bring weakly interacting transcription factors into close proximity so they can work synergistically to switch genes on and off in time and space. Most of these regulatory DNAs are enhancers that can work over long distances--a million base pairs or more in mammals--to control gene expression. Critical enhancers are sometimes even found within the introns of neighboring genes. This review summarizes well-defined examples of enhancers controlling key processes in animal development. Potential mechanisms of transcriptional synergy are discussed with regard to enhancer structure and contemporary ChIP-sequencing assays, whereby just a small fraction of the observed binding sites represent bona fide regulatory DNAs. Finally, there is a discussion of how enhancer evolution can produce novelty in animal morphology and of the prospects for reconstructing transitions in animal evolution by introducing derived enhancers in basal ancestors.

Detection of mutations in hepatitis B virus enhancer 2/core promoter and X protein regions in patients with fatal hepatitis B virus infection

The enhancer 2/core promoter and the X protein regions located upstream of the precore and core regions in hepatitis B virus regulate expression of core/e antigen peptides. Mutations in the precore and core regions have been reported to be associated closely with the severity of type B hepatitis, and regions regulating expression of these peptides may also be involved in severe liver damage. Mutations were examined in regions that may be related to fatal liver diseases. Nucleotide sequences and deduced amino acid sequences from 20 patients with fatal type B hepatitis (12 with fulminant hepatitis and 8 with severe exacerbation) and 10 patients with self-limited acute hepatitis were analyzed. There were 50 nucleotide alterations in the enhancer 2/core promoter region of virus from 12 patients with fulminant hepatitis (average 4.1/case), 37 alterations in 8 patients with severe exacerbation (4.6/case), and 10 mutations in 10 cases of acute hepatitis (1.0/case). The numbers of amino acid mutations in X protein were 53 in 12 cases of fulminant hepatitis (4.4/case), 27 in 8 cases of severe exacerbation (3.3/case), and 9 in 10 cases of acute hepatitis (0.9/case). In fatal cases, approximately 50% of the nucleotide mutations were located within the region spanning nucleotides 1741-1777 (14.2% of the enhancer 2/core promoter region) and 30% of the amino acid mutations in X protein were located within the region containing codons 122-132 (7.1% of X protein). In addition to mutations in the precore and core regions, mutations in the enhancer 2/core promoter and the X protein regions may be associated with the pathogenesis of fatal B hepatitis infection.

Mutations of the X region of hepatitis B virus and their clinical implications

Nucleotide (nt) sequences of the X region of more than 130 hepatitis B virus (HBV) isolates were determined and derived from patients with a variety of clinical features. Correlation of nt substitutions with clinicopathological characteristics was attempted. The X region (465nt) is crucial for the replication and expression of HBV because the X protein transactivates the HBV genes and this region contains the core promoter, enhancer II, and two direct repeats. There are several mutational hotspots, some of which seem to relate to immunological epitopes of the X protein. Two kinds of mutations which have important clinical significances were found. One is an 8-nt deletion between nt 1770 and 1777, which truncates 20 amino acids from the carboxyl terminus of the X protein. This deletion leads to the suppression of replication and expression of HBV DNA, resulting in immunoserological marker (HBsAg) negativity. This silent HBV infection is responsible for the majority of non-A to non-E hepatitis. The other mutation substituting T for C (nt 1655), T for A (nt 1764) and A for G (nt 1766) seems to relate to fulminant hepatitis. Further sequencing studies and in vitro mutagenesis experiments will clarify the significance of other mutations of the X region.

Hepatitis B virus with X gene mutation is associated with the majority of serologically "silent" non-b, non-c chronic hepatitis

Hepatitis B virus (HBV) with X gene mutations has been a putative pathogen of chronic hepatitis without serological markers of known hepatitis viruses. The aim of this study was to reconfirm whether the HBV with the X gene mutation is associated with these serologically "silent" non-B, non-C (NBNC) chronic hepatitis, alcoholic liver disease (ALD) and autoimmune hepatitis (AIH). HBV DNA was amplified from serum and sequenced in 30 patients with NBNC chronic hepatitis in comparison with 20 patients with ALD and 5 patients with AIH. HBV DNA was identified in 21 patients (70%) in NBNC chronic hepatitis by nested polymerase chain reaction while only one patient (5%) in ALD and none in AIH showed HBV DNA. Eighteen (85.7%) of the 21 identified HBV DNAs had an identical 8-nucleotide deletion mutation at the distal part of the X region. This mutation affected the core promoter and the enhancer II sequence of HBV DNA and created a translational stop codon which truncated the X protein by 20 amino acids from the C-terminal end. All the HBV DNAs had a precore mutation at the 83rd nucleotide resulting in disruption of HBe antigen synthesis. These results indicate that HBV mutants are closely associated with the majority of serologically "silent" NBNC chronic hepatitis cases and the population of such mutant HBV DNAs is not uniform.

Human immunodeficiency virus type 1 long terminal repeat variants from 42 patients representing all stages of infection display a wide range of sequence polymorphism and transcription activity

Despite extensive in vitro studies identifying a myriad of cellular transcription factors that bind the human immunodeficiency virus type 1 5' long terminal repeat (LTR), the relative contribution of these factors to human immunodeficiency virus type 1 replication in infected individuals remains obscure. To address this question, we investigated 478 proviral quasispecies derived from uncultured peripheral blood mononuclear cells of 42 patients representing all stages of infection. In addition to highly conserved TATA box, SP-1, and NF-kappaB sites, the Ets core and an adjacent 5'-ACYGCTGA-3' motif were extremely conserved. Importantly, the most frequent naturally occurring length polymorphism (MFNLP) duplicated 5'-ACYGCTGA-3' motifs in LTRs in which this same motif was disrupted or in LTRs in which a single point mutation to the Ets core ablated binding of c-Ets 1 and another factor distinct from both c-Ets 1 and Elf 1. The MFNLP's location was precise (position -121) and surprisingly frequent (38% of patients) and demarcated LTR Nef-coding sequences from LTR noncoding sequences that appear to be evolving independently. Aside from these features, we found no definitive clinical or transcription phenotype common to all MFNLP LTRs. We also found previously described and novel point polymorphisms, including some conferring TAR-dependent and TAR- independent Tat unresponsiveness, and showed that differential binding of nuclear factor(s) to a TCTAA TATA box variant may be the mechanism for the latter.

Mutations in the core promoter region of hepatitis B virus in patients with chronic hepatitis B

The core promoter region of hepatitis B virus genomes regulates transcription of the precore and pregenomic mRNAs encoding hepatitis B e antigen (HBeAg) and core antigen that contain target epitopes for cytotoxic T lymphocytes. The prevalence and clinical significance of mutations in this region were investigated. DNA was extracted from six asymptomatic carriers positive for HBeAg, eight asymptomatic carriers positive for an anti-HBe antibody, and 24 patients with chronic liver disease. The core promoter and precore regions of hepatitis B virus genomes were amplified by polymerase chain reaction, and predominant sequences were determined by direct sequencing. Mutations were found in none of the HBeAg-positive asymptomatic carriers but in all of the anti-HBe-positive asymptomatic carriers and the patients with chronic liver disease. Especially, A to T mutations at nucleotide 1762 and G to A mutations at nucleotide 1764 were found in five anti-HBe-positive asymptomatic carriers, and 22 patients with chronic liver disease. These two mutation hot spots were located within binding sites of the nuclear factors, and nucleotide 1762 was also involved in the A, T rich sequence that is located 28 base pairs upstream of the precore mRNA initiation site. Serum HBeAg and DNA polymerase levels were significantly lower in patients with these mutations than those without these mutations, and five individuals with these mutations were positive for anti-HBe despite the absence of the precore stop codon mutation. These mutants may be selected by host immune response to HBeAg and/or core antigen.

Probable implication of mutations of the X open reading frame in the onset of fulminant hepatitis B

A pathogenic role of precore-defective mutation in the onset of fulminant hepatitis B has been suggested. However, precore-defective mutants do not always cause fulminant hepatitis B and are not always isolated from affected patients. These findings strongly suggest the presence of some additional important mutations outside the precore region in fulminant hepatitis. In the present investigation an attempt was made to sequence the X open reading frame of hepatitis B virus DNA isolated from seven patients with fulminant hepatitis B and five patients with acute hepatitis B. The latter were used as controls. Since the X open reading frame encodes the X protein and contains the core promoter/enhancer II complex, some critical mutations may enhance or disrupt the replication and expression of hepatitis B virus DNA leading to fulminant hepatitis. A C-to-T substitution was found at nucleotide (nt) 1655, an A-to-T substitution at nt 1764 and a G-to-A substitution at nt 1766 in 4, 5 and 5 patients, respectively, out of the seven with fulminant hepatitis. These substitutions were not recognized in the patients with acute hepatitis. These mutations might change the function of the X protein and core promoter/enhancer II complex. It is suggested, therefore, that these mutations, as well as the precore-defective mutation, may play an important role in the pathogenesis of fulminant hepatitis.

The kappa B enhancer motifs in human immunodeficiency virus type 1 and simian virus 40 recognize different binding activities in human Jurkat and H9 T cells: evidence for NF-kappa B-independent activation of the kappa B motif

The kappa B transcriptional enhancer motif, present in many viruses, is broadly active in many cell types. It is recognized by c-Rel/HIVEN86A in DNA affinity precipitation (DNAP) assays and by the Rel-related p50 and p65 subunits of the nuclear factor NF-kappa B in electrophoretic mobility shift assays (EMSA). We have analyzed activities that bind the human immunodeficiency virus type 1 and simian virus 40 kappa B motifs in two human leukemia cell lines, Jurkat and H9. In both DNAP and EMSA analyses of Jurkat cell extracts, we detected multiple kappa B motif-binding activities in addition to c-Rel/HIVEN86A and p50-p65 NF-kappa B. In Jurkat cell nuclear extracts, EMSA analysis revealed at least six specific DNA-protein complexes, of which one comigrated with the p50-p65 NF-kappa B complex. Formation of all six complexes was enhanced by stimulation of the cells with phorbol 12-myristate-13-acetate and phytohemagglutinin but was differentially affected by the salt concentration in the binding reaction and by the conditions of Jurkat cell growth. Nuclear extracts from both unstimulated and stimulated H9 cells revealed similar levels of five kappa B motif-specific complexes, all of which displayed mobilities distinct from those of the Jurkat cell complexes. Indeed, a complex corresponding to p50-p65 NF-kappa B was not detectable in nuclear extracts from unstimulated H9 cells although such a complex was apparent in nuclear extracts from stimulated H9 cells. In contrast to the inducibility of a p50-p65 NF-kappa B-like complex, transcriptional enhancers composed of multimerized kappa B motifs displayed similar high levels of activity in both the unstimulated and stimulated H9 cells. Thus, the activity of the kappa B motif in H9 cells corresponded to the abundance of the H9 cell-specific kappa B motif complexes and not to the levels of p50-p65 NF-kappa B complex. These results suggest that the broad activity of the kappa B enhancer element is not only due to the broadly distributed NF-kappa B activator but also to cell type-specific kappa B motif-binding activities.

Dithiocarbamates as potent inhibitors of nuclear factor kappa B activation in intact cells

Dithiocarbamates and iron chelators were recently considered for the treatment of AIDS and neurodegenerative diseases. In this study, we show that dithiocarbamates and metal chelators can potently block the activation of nuclear factor kappa B (NF-kappa B), a transcription factor involved in human immunodeficiency virus type 1 (HIV-1) expression, signaling, and immediate early gene activation during inflammatory processes. Using cell cultures, the pyrrolidine derivative of dithiocarbamate (PDTC) was investigated in detail. Micromolar amounts of PDTC reversibly suppressed the release of the inhibitory subunit I kappa B from the latent cytoplasmic form of NF-kappa B in cells treated with phorbol ester, interleukin 1, and tumor necrosis factor alpha. Other DNA binding activities and the induction of AP-1 by phorbol ester were not affected. The antioxidant PDTC also blocked the activation of NF-kappa B by bacterial lipopolysaccharide (LPS), suggesting a role of oxygen radicals in the intracellular signaling of LPS. This idea was supported by demonstrating that treatment of pre-B and B cells with LPS induced the production of O2- and H2O2. PDTC prevented specifically the kappa B-dependent transactivation of reporter genes under the control of the HIV-1 long terminal repeat and simian virus 40 enhancer. The results from this study lend further support to the idea that oxygen radicals play an important role in the activation of NF-kappa B and HIV-1.