Processing of the Borna disease virus glycoprotein gp94 by the subtilisin-like endoprotease furin

Open reading frame IV (ORF-IV) of Borna disease virus (BDV) encodes a protein with a calculated molecular mass of ca. 57 kDa (p57), which increases after N glycosylation to 94 kDa (gp94). The unglycosylated and glycosylated proteins are proteolytically cleaved by the subtilisin-like protease furin. Furin most likely recognizes one of three potential cleavage sites, namely, an arginine at position 249 of the ORF-IV gene product. The furin inhibitor decRVKRcmk decreases the production of infectious BDV significantly, indicating that proteolytic cleavage of the gp94 precursor molecule is necessary for the full biological activity of the BDV glycoprotein.

Molecular characterization of Borna disease virus from naturally infected animals and possible links to human disorders

In this review data are presented which indicate a high degree of genetic stability of BDV in his natural host, the horse. Despite this high degree of sequence conservation, variation in antigenicity was found, which did not influence the pathogenic properties of the virus. In addition, the correlation between BDV-seropositivity and a variety of psychiatric and neurological disorders in humans is discussed. In diagnostically unselected psychiatric patients we found a similar distribution of psychiatric disorders in BDV seropositives compared to seronegatives. Investigations of cerebrospinal fluid revealed cases of BDV encephalitis in BDV seropositive psychiatric and neurological patients. In contrast to others, we have found no evidence for the presence of BDV-RNA or BDV in human peripheral blood leucocytes.

Borna disease virus infection in animals and humans

The geographic distribution and host range of Borna disease (BD), a fatal neurologic disease of horses and sheep, are larger than previously thought. The etiologic agent, Borna disease virus (BDV), has been identified as an enveloped nonsegmented negative-strand RNA virus with unique properties of replication. Data indicate a high degree of genetic stability of BDV in its natural host, the horse. Studies in the Lewis rat have shown that BDV replication does not directly influence vital functions; rather, the disease is caused by a virus-induced T-cell mediated immune reaction. Because antibodies reactive with BDV have been found in the sera of patients with neuropsychiatric disorders, this review examines the possible link between BDV and such disorders. Seroepidemiologic and cerebrospinal fluid investigations of psychiatric patients suggest a causal role of BDV infection in human psychiatric disorders. In diagnostically unselected psychiatric patients, the distribution of psychiatric disorders was found to be similar in BDV seropositive and seronegative patients. In addition, BDV-seropositive neurologic patients became ill with lymphocytic meningoencephalitis. In contrast to others, we found no evidence is reported for BDV RNA, BDV antigens, or infectious B DV in peripheral blood cells of psychiatric patients.

Octamer factors exert a dual effect on the IL-2 and IL-4 promoters

The promoters of IL-2 and IL-4 genes contain multiple binding sites for octamer factors. In peripheral T lymphocytes and several T cell lines, both the ubiquitous Oct factor Oct-1 and the lymphocyte-specific factor Oct-2 are expressed and bind to the IL-2 and IL-4 promoters. Prominent octamer binding sites of IL-2 and IL-4 promoters are their upstream promoter sites (UPS) which share 14 identical nucleotides. Multiple copies of the IL-2 and IL-4 UPS act as inducible enhancers in T cells, and their induction is inhibited by the immunosuppressant cyclosporin A (CsA). Closely linked to the octamer site, the IL-2 UPS contains a non-canonical AP-1 binding (TRE) site, and mutation in either site to a non-functional factor binding site impairs the induction of the IL-2 promoter. The binding of AP-1 and octamer factors to the IL-2 UPS DNA overlaps, and the tight association and functional cooperation of octamer with AP-1 factors is of crucial importance for the inducible IL-2 UPS activity. Introduction of five or ten spacer nucleotides between both IL-2 UPS sites results in a drastic reduction of inducible UPS activity, both in the loss of suppression by CsA and stimulation by the Ca(2+)-dependent phosphatase calcineurin. Within the IL-4 UPS the Oct and TRE-like motifs are separated by a binding site of nuclear factor of activated T cells (NF-AT). This site shares nine out of ten bp with an IL-2 NF-AT site. The strong binding of NF-ATp to the IL-4 UPS site suppresses the simultaneous binding of Oct factors to the IL-4 UPS. Because the two other Oct binding sites of IL-4 promoter show a similar sequence configuration, the binding of NF-AT seems to prevent the simultaneous binding of Oct factors to the IL-4 promoter. By contrast, both classes of factors bind simultaneously to the IL-2 promoter, and their tight association with AP-1 enhances the IL-2 promoter activity.

Octamer factors exert a dual effect on the IL-2 and IL-4 promoters

The promoters of IL-2 and IL-4 genes contain multiple binding sites for octamer factors. In peripheral T lymphocytes and several T cell lines, both the ubiquitous Oct factor Oct-1 and the lymphocyte-specific factor Oct-2 are expressed and bind to the IL-2 and IL-4 promoters. Prominent octamer binding sites of IL-2 and IL-4 promoters are their upstream promoter sites (UPS) which share 14 identical nucleotides. Multiple copies of the IL-2 and IL-4 UPS act as inducible enhancers in T cells, and their induction is inhibited by the immunosuppressant cyclosporin A (CsA). Closely linked to the octamer site, the IL-2 UPS contains a non-canonical AP-1 binding (TRE) site, and mutation in either site to a non-functional factor binding site impairs the induction of the IL-2 promoter. The binding of AP-1 and octamer factors to the IL-2 UPS DNA overlaps, and the tight association and functional cooperation of octamer with AP-1 factors is of crucial importance for the inducible IL-2 UPS activity. Introduction of five or ten spacer nucleotides between both IL-2 UPS sites results in a drastic reduction of inducible UPS activity, both in the loss of suppression by CsA and stimulation by the Ca(2+)-dependent phosphatase calcineurin. Within the IL-4 UPS the Oct and TRE-like motifs are separated by a binding site of nuclear factor of activated T cells (NF-AT). This site shares nine out of ten bp with an IL-2 NF-AT site. The strong binding of NF-ATp to the IL-4 UPS site suppresses the simultaneous binding of Oct factors to the IL-4 UPS. Because the two other Oct binding sites of IL-4 promoter show a similar sequence configuration, the binding of NF-AT seems to prevent the simultaneous binding of Oct factors to the IL-4 promoter. By contrast, both classes of factors bind simultaneously to the IL-2 promoter, and their tight association with AP-1 enhances the IL-2 promoter activity.

Transforming growth factor beta and cyclosporin A inhibit the inducible activity of the interleukin-2 gene in T cells through a noncanonical octamer-binding site

Transforming growth factor beta (TGF-beta) has a growth-inhibitory effect on numerous different cell types of the immune system, including T lymphocytes. We show in this study that the inhibitory action of TGF-beta on T lymphocytes is accompanied by a block of interleukin 2 (IL-2) gene expression which is mediated, at least in part, by inhibition of IL-2 promoter/enhancer activity. The functional analysis of cis-regulatory (proto-enhancer) elements of the IL-2 enhancer/promoter region showed that the most TGF-beta-responsive element maps to its so-called upstream promoter site. The proto-enhancer activity of the upstream promoter site element is also inhibited by cyclosporin A. The upstream promoter site DNA harbors two noncanonical, closely linked binding sequences for octamer and AP-1-like factors. Both sites are involved in the establishment of IL-2 enhancer activity. Since the activity of genuine octamer sites but not that of AP-1-binding sites is also impaired by TGF-beta and cyclosporin A in El4 T lymphoma cells, we conclude that both immunosuppressives interfere with the activity but not the DNA binding of octamer factors in T lymphocytes.

The weak, fine-tuned binding of ubiquitous transcription factors to the Il-2 enhancer contributes to its T cell-restricted activity

The T lymphocyte-specific enhancers of the murine and human Interleukin 2 (Il-2) genes harbour several binding sites for ubiquitous transcription factors. All these sites for the binding of AP-1, NF-kB or Oct-1 are non-canonical sites, i.e. they differ in one or a few base pairs from consensus sequences for the optimal binding of these factors. Although the factors bind weakly to these sites, the latter are functionally important because their mutation to non-binding sites results in a decrease of inducible activity of the Il-2 enhancer. Conversion of three sites to canonical binding sites of Octamer factors, AP-1 and NF-kB results in a drastic increase in enhancer activity and the induction of the Il-2 enhancer in non-T cells, such as B cell lines, murine L cells and human HeLa cells. The introduction of two or three canonical sites into the enhancer leads to a further increase of its activity. Il-2 enhancer induction is also observed in B cells when the concentration of AP-1 and Oct factors increases as a result of cotransfections with FosB and Octamer expression plasmids. When Il-2 enhancer constructs carrying canonical factor binding sites were injected into Xenopus oocytes the strong binding of ubiquitous factors substantially overcomes the silencing effect of negatively acting factors present in resting primary T lymphocytes. These results suggest a fine-tuned interplay between ubiquitous and lymphoid-specific factors binding to and transactivating the Il-2 enhancer and show that the binding affinity of ubiquitous factors to the enhancer contributes to its cell-type specific activity. Moreover, we believe that a dramatic increase of transcriptional activity brought about by single point mutations at strategic important factor binding sites may also have relevance to the activation of nuclear oncogenes.

One base pair change abolishes the T cell-restricted activity of a kB-like proto-enhancer element from the interleukin 2 promoter

The inducible, T cell-specific enhancers of murine and human Interleukin 2 (Il-2) genes contain the kB-like sequence GGGATTTCACC as an essential cis-acting enhancer motif. When cloned in multiple copies this so-called TCEd (distal T cell element) acts as an inducible proto-enhancer element in E14 T lymphoma cells, but not in HeLa cells. In extracts of induced, Il-2 secreting El4 cells three individual protein factors bind to TCEd DNA. The binding of the most prominent factor, named TCF-1 (T cell factor 1), is correlated with the proto-enhancer activity of TCEd. TCF-1 consists of two polypeptides of about 50 kD and 105 kD; the former seems to be related to the 50 kD polypeptide of NF-kB. Purified NF-kB is also able to bind to the TCEd, but TCF-1 binds stronger than NF-kB to TCEd DNA. The conversion of the TCEd to a 'perfect' NF-kB binding site leads to a tighter binding of NF-kB to TCEd DNA and, as a functional consequence, to the activity of the 'converted' TCEd motifs in HeLa cells. Thus, the substitution of the underlined A residue to a C within the GGGATTTCACC motif abolishes its T cell-restricted activity and leads to its functioning in both El4 cells and HeLa cells. These results indicate that lymphocyte-specific factors binding to the TCEd are involved in the control of T cell specific-transcription of the Il-2 gene.

A novel T-cell trans-activator that recognizes a phorbol ester-inducible element of the interleukin-2 promoter

The interleukin 2 (IL-2) gene promoter is recognized by several cell-type-specific and ubiquitous transcriptional regulators that integrate information transmitted by various signaling systems leading to IL-2 production and T-cell activation. Using a combination of transfection, protein-DNA binding, and in vitro transcription methods, we have discovered the novel T-cell-specific transcriptional activator TCF-1 (for T-Cell Factor-1), which recognizes a T-cell-specific response element (TCE) located within the IL-2 promoter. Although the TCE is similar in sequence to a consensus NF kappa B site, several criteria indicate that TCF-1 is distinct from NF kappa B. However, like NF kappa B, TCF-1 activity is induced by phorbol esters and other T-cell activators.

Ubiquitous and lymphocyte-specific factors are involved in the induction of the mouse interleukin 2 gene in T lymphocytes

The immediate upstream region of the mouse interleukin 2 (Il-2) gene harbors a strong transcriptional enhancer. This enhancer contains most, if not all of the sequence elements necessary for the T cell specific induction of the Il-2 gene by the phorbol ester TPA and the plant lectin Concanavalin A. DNase I footprinting studies with fractionated extracts obtained from induced and uninduced E14 T cells revealed numerous recognition sites for potential trans-acting factors. Five of these sites are also recognized by the TPA-activated HeLa cell factors AP-1 and AP-3. Other sites including two TATA-boxes, two purine-rich sequence motifs and two copies of the GGGPuTTTCAA motif are recognized by lymphocyte specific factors. The latter motif is highly conserved between several lymphokine genes and is therefore designated as a T cell element (TCE). In E14 T cells, pentamers of the distal TCEd confer an activity similar to that of the entire Il-2 enhancer, whereas in B and HeLa cells, the TCEd-pentamer is inactive as is the Il-2 enhancer. These data indicate the involvement of the TCEd and its recognition factor(s) in the cell type specific induction of the Il-2 gene during T cell activation.