Independent modes of transcriptional activation by the p50 and p65 subunits of NF-kappa B

Recombinant subunits of the transcription factor NF-kappa B, p50 and p65, were analyzed both for binding to various kappa B motifs and in vitro activation. The subunits preferentially form a heterodimer that activates transcription. Although p50 and p65 bind DNA individually as homodimers and are structurally related, their activation mechanisms are distinct. p65 activates transcription by its unique carboxy-terminal activation domain. (p50)2 displays higher affinity DNA binding than (p65)2 for many distinct kappa B motifs and provides strong transcriptional activation only when adopting a chymotrypsin-resistant conformation induced by certain kappa B motifs but not others. Thus, (p50)2 acts as a positive regulator in vitro, consistent with its isolation as a putative constitutive regulator of MHC class I genes. Both subunits of NF-kappa B, therefore, contribute independently to provide regulation at given kappa B motifs.

Differential induction of transcription factors that regulate the interleukin 2 gene during anergy induction and restimulation

T cell activation requires two distinct signals. The first is delivered through the antigen-specific T cell receptor (TCR), and the second is provided by costimulatory molecule(s) present on the surface of the antigen-presenting cell (APC). Stimulation of T helper type 1 T cell clones through the TCR in the absence of the costimulatory activity results in a lack of interleukin 2 (IL-2) secretion and proliferation, and the induction of a long-lived state of nonresponsiveness, termed anergy. In this study, we have examined the transcription factors involved in IL-2 gene expression that are expressed after stimulation of normal T cell clones through the TCR with and without engagement of the necessary costimulatory molecule(s). Antigen-specific activation of the clones results in the induction of a similar pattern of transcription factors that have been previously shown to regulate IL-2 expression. In contrast, antigen presentation by chemically fixed APC, a condition that results in T cell anergy, induces neither NF-AT nor one of the two NF-kappa B binding factors. Thus, the failure to express IL-2 during the induction of T cell anergy may be attributed to the absence of these two transcription factors. When anergized T cells are restimulated with antigen and conventional APC, they induce the transcription factors associated with IL-2 expression, but they fail to synthesize measurable IL-2. Taken together, these data indicate that the control of IL-2 gene expression during anergy induction and during normal stimulation of anergized cells are distinct, and suggest the presence of additional regulatory elements in the IL-2 gene.

I-Rel: a novel rel-related protein that inhibits NF-kappa B transcriptional activity

The NF-kappa B transcription factor complex is comprised of two subunits, p50 and p65, that share significant homology to the rel oncogene. We have isolated a cDNA encoding a novel 66-kD rel-related protein, designated I-Rel. Unlike other rel-related proteins, I-Rel does not interact with DNA. I-Rel forms heterodimers with p50, however, and greatly attenuates its DNA-binding activity--an effect probably resulting from the presence of a domain inhibitory to DNA binding present within the 121 amino-terminal residues of I-Rel. In contrast, I-Rel does not associate with p65. Transfection experiments demonstrate that I-Rel suppresses NF-kappa B-induced transcription, probably through its association with p50. Expression of I-Rel mRNA is induced by mitogenic stimulation and accumulates after the appearance of p50 transcripts. Our findings suggest that p50 and I-Rel are components of a feedback pathway where expression of I-Rel may modulate indirectly the expression of genes responsive to the NF-kappa B transcription factor complex.

Transcriptional regulation of the HIV-1 promoter by NF-kappa B in vitro

NF-kappa B, purified from HeLa cell cytosol, and a recombinant p50 subunit of NF-kappa B alone (expressed in and purified from bacteria) both stimulated transcription from the HIV-1 promoter in vitro (at least up to 15-fold). A deletion analysis of the p50 subunit revealed that transcriptional activation was mediated by the conserved c-rel-related domain. I kappa B-beta (or a related protein), which binds to the p65 but not the p50 subunit of NF-kappa B, inhibited stimulation by natural NF-kappa B but not by recombinant p50. Experiments employing a purified transcription system revealed that efficient induction of transcription by both natural NF-kappa B or recombinant p50 required a cofactor fraction in addition to the general initiation factors. Combined with DNA-binding experiments, these studies suggest a role of p50 homodimers in transcriptional activation of certain promoters, with a possible preference for those carrying symmetric NF-kappa B recognition sites, and a potential role of I kappa B-beta in direct transcriptional regulation within the nucleus.

Stable expression of HB24, a diverged human homeobox gene, in T lymphocytes induces genes involved in T cell activation and growth

A diverged homeobox gene, HB24, which is known to be induced following lymphocyte activation, was introduced into Jurkat T cells under the control of a constitutive promoter. Stable transfectants of HB24 were established that expressed high levels of HB24 mRNA and possessed an altered phenotype suggestive of activated T cells. A number of genes known to be induced following T cell activation and associated with cell growth were increased in the transfectants, including c-fos, c-myc, c-myb, HLA-DR, lck, NF-kappa B, interleukin-2 and interleukin-2 receptor alpha (IL-2R alpha). Analysis of IL-2R alpha expression by transient transfection of IL-2R alpha promoter constructs into the HB24 transfectants revealed constitutive expression (about 60% of phytohemagglutinin- and phorbol ester-activated Jurkat cells) that was dependent on the kappa B site in the IL-2R alpha promoter. Furthermore, as a consequence of the increased HB24 mRNA levels, the Jurkat HB24 transfectants proliferated more rapidly than control cell lines. Thus, stable expression of HB24 confers an activation phenotype on a human T cell line, implicating this gene as an important transcriptional factor during T cell activation and growth.

Identification of a naturally occurring transforming variant of the p65 subunit of NF-kappa B

Transcription factor NF-kappa B comprises two proteins, p50 and p65, that have sequence similarity to the v-rel oncogene. In primary hematopoietic cell populations an alternatively spliced form of NF-kappa B p65 mRNA was observed that encoded a protein designated p65 delta. Expression of the p65 delta cDNA in Rat-1 fibroblasts resulted in focus formation, anchorage-independent growth in soft agar, and tumor formation in athymic nude mice, effects not obtained with expression of p65 or a p65 delta mutant that contains a disruption within the transcriptional activation domain. Thus, p65 delta, which associated weakly and interfered with DNA binding by p65, may sequester an essential limiting regulatory factor or factors required for NF-kappa B function.

The inhibitory ankyrin and activator Rel proteins

The gene families encoding the proteins NF-kappa B, c-Rel and Dorsal, in conjunction with their respective inhibitors l kappa B, pp40, and Cactus, achieve specificity in gene regulation by means of common principles. The related activities of NF-kappa B and Dorsal are mediated by heterodimeric or homodimeric complexes of proteins containing the conserved dimerization and DNA-binding domain termed Rel. The l kappa Bs and Cactus, which share a core series of structural repeats termed ankyrin, inhibit cognate activators through differential interactions with the Rel-homology domain. Together, the inhibitory ankyrin proteins and their cognate Rel dimers probably define specific signalling pathways able to activate specific gene expression. Both gene families include proto-oncogenes, thus broadly implicating Rel/l kappa B in the control of both normal gene expression and the aberrant gene expression that makes cells cancerous.

I kappa B gamma, a 70 kd protein identical to the C-terminal half of p110 NF-kappa B: a new member of the I kappa B family

A cDNA corresponding to the 2.6 kb NF-kappa B mRNA species present in a variety of lymphoid cell lines has been molecularly cloned. The deduced 607 amino acid sequence is identical to the sequence of the C-terminal region of 110 kd NF-kappa B protein. A 70 kd protein can be identified in lymphoid cells using antibodies raised against the C-terminal region of p110 NF-kappa B. Comparison of the two-dimensional tryptic peptide maps of the 70 kd protein expressed in cells and the in vitro translated product encoded by the cDNA display extensive homology. The 70 kd protein expressed in bacteria prevents sequence-specific DNA binding of p50-p65 NF-kappa B heterodimer, p50 homodimer, and c-rel. p70 also interferes with transactivation by c-rel and prevents its nuclear translocation. The 70 kd protein, predominantly found in lymphoid cells, is a new member of the I kappa B family of proteins and is referred to as I kappa B gamma.

The ankyrin repeat domains of the NF-kappa B precursor p105 and the protooncogene bcl-3 act as specific inhibitors of NF-kappa B DNA binding

The inducible pleiotropic transcription factor NF-kappa B is composed of two subunits, p50 and p65. The p50 subunit is encoded on the N-terminal half of a 105-kDa open reading frame and contains a rel-like domain. To date, no function has been described for the C-terminal portion. We show here that the C-terminal half of p105, when expressed as a separate molecule, binds to p50 and can rapidly disrupt protein-DNA complexes of p50 or native NF-kappa B. Deletion analysis of this precursor-derived inhibitor activity indicated a domain containing ankyrin-like repeats as necessary for inhibition. The protooncogene bcl-3, which contains seven ankyrin repeats, can equally inhibit p50 DNA binding. These observations identify bcl-3 as an inhibitor of NF-kappa B and strongly suggest that the ankyrin repeats in these factors are involved in protein-protein interactions with the rel-like domain of p50. Comparison with other ankyrin repeat-containing proteins suggests that a subclass of these proteins acts as regulators of rel-like transcription factors.

Activation of human immunodeficiency virus type 1 provirus in T-cells and macrophages is associated with induction of inducer-specific NF-kappa B binding proteins

We have analyzed the limiting factors involved in the induction of human immunodeficiency virus type 1 (HIV-1) provirus expression by tumor necrosis factor-alpha (TNF-alpha), phorbol-12-myristate-13-acetate (PMA), and bryostatin-1 in T-cells (ACH-2) and monocytes (U1). We have demonstrated that, while there is a correlation among the increase of 9.2-kilodalton (kDa) HIV-1 RNA, the increase of viral proteins (p24) in the cells, and the release of HIV-1 virions into the medium, there is no direct correlation between the levels of induced NF-kappa B binding proteins and the expression of HIV-1 provirus. The presence of nuclear NF-kappa B-specific proteins appears to be essential only for the initiation of viral replication, since the HIV-1 transcripts could be detected in TNF-alpha or bryostatin-1-stimulated cells also at later times postinduction, times when no NF-kappa B proteins could be detected in the nucleus. The uv crosslinking of DNA and proteins has shown that TNF-alpha, PMA, and bryostatin-1 induce different sets of NF-kappa B binding proteins with distinct kinetics of binding.

Cecropia immunoresponsive factor, an insect immunoresponsive factor with DNA-binding properties similar to nuclear-factor kappa B

The immune genes in Hyalophora cecropia contain an upstream sequence that is homologous to the binding site of the mammalian nuclear-factor kappa B (NF-kappa B). These genes are strongly induced by bacteria, lipopolysaccharides and 4 beta-phorbol 12-myristate 13-acetate. Induction of the immune genes involves the activation of a DNA-binding protein complex that we have named Cecropia immunoresponsive factor (CIF). CIF specifically recognizes the kappa B-like DNA sequences in the promoter regions of the Cecropia immune genes. The DNA binding activity of CIF correlates well with the transcriptional induction of the immune genes. Competition assays show that CIF has a DNA binding specificity similar to mammalian NF-kappa B. The two factors also share other characteristics, including the pattern of induction and the migration on the native gel.

The AP-1 site at -150 bp, but not the NF-kappa B site, is likely to represent the major target of protein kinase C in the interleukin 2 promoter

Stimulation of T cells with antigen results in activation of several kinases, including protein kinase C (PKC), that may mediate the later induction of activation-related genes. We have examined the potential role of PKC in induction of the interleukin 2 (IL-2) gene in T cells stimulated through the T cell receptor/CD3 complex. We have previously shown that prolonged treatment of the untransformed T cell clone Ar-5 with phorbol esters results in downmodulation of the alpha and beta isozymes of PKC, and abrogates induction of IL-2 mRNA and protein. Here we show that phorbol ester treatment also abolishes induction of chloramphenicol acetyltransferase activity in Ar-5 cells transfected with a plasmid containing the IL-2 promoter linked to this reporter gene. The IL-2 promoter contains binding sites for nuclear factors including NFAT-1, Oct, NF-kappa B, and AP-1, which are all potentially sensitive to activation of PKC. We show that induction of a trimer of the NFAT and Oct sites is not sensitive to phorbol ester treatment, and that mutations in the NF-kappa B site have no effect on inducibility of the IL-2 promoter. In contrast, mutations in the AP-1 site located at -150 bp almost completely abrogate induction of the IL-2 promoter, and appearance of an inducible nuclear factor binding to this site is sensitive to PKC depletion. Moreover, cotransfections with c-fos and c-jun expression plasmids markedly enhance induction of the IL-2 promoter in minimally stimulated T cells. Our results indicate that the AP-1 site at -150 bp represents a major, if not the only, site of PKC responsiveness in the IL-2 promoter.

Induction of monocytic differentiation and NF-kappa B-like activities by human immunodeficiency virus 1 infection of myelomonoblastic cells

The effects of human immunodeficiency virus 1 (HIV-1) infection on cellular differentiation and NF-kappa B DNA binding activity have been investigated in a new model of myeloid differentiation. PLB-985 cells represent a bipotential myelomonoblastic cell population capable of either granulocytic or monocytic differentiation after induction with appropriate inducers. By virtue of the presence of CD4 on the cell surface, PLB-985 cells were chronically infected with HIV-1 strain IIIB. PLB-IIIB cells clearly possessed a more monocytic phenotype than the parental myeloblasts, as determined by differential staining, increased expression of the myeloid-specific surface markers, and transcription of the c-fms proto-oncogene. NF-kappa B binding activity was inducible by tumor necrosis factor and phorbol myristate acetate in PLB-985. However, in PLB-IIIB cells, constitutive expression of a novel NF-kappa B complex was detected, composed of proteins ranging between 70 and 110 kD. These proteins interacted specifically with the symmetric NF-kappa B site from the interferon beta (IFN-beta) promoter. Mutations affecting the 5' guanine residues of the kappa B site were unable to compete for these NF-kappa B-related proteins. Inducibility of endogenous IFN-beta and IFN-alpha RNA was also increased in PLB-IIIB cells. These studies indicate that HIV-1 infection of myelomonoblastic cells may select for a more mature monocytic phenotype and that unique subunit associations of NF-kappa B DNA binding proteins may contribute to differential NF-kappa B-mediated gene expression.

Herbimycin A blocks IL-1-induced NF-kappa B DNA-binding activity in lymphoid cell lines

The mechanism by which interleukin-1 alpha (IL-1 alpha) activates NF-kappa B DNA-binding activity is not completely understood. While it is well established that protein kinase C can activate NF-kappa B, neither protein kinase C nor protein kinase A appears to be critical in the induction of NF-kappa B by IL-1 alpha. Since a number of growth factors signal via protein tyrosine kinase, in this study we examined a possible involvement of protein tyrosine kinase in the IL-1 alpha-induced NF-kappa B. The results showed that in the murine pre-B cell line 70Z/3 and in the murine T cell line EL-4 6.1 C10 IL-1 alpha-induced NF-kappa B was associated with transient increase in protein tyrosine kinase activity. Pre-treatment of these cell lines with herbimycin A, an inhibitor of tyrosine kinase activity, blocked the IL-1 alpha-enhanced protein tyrosine kinase activity and the IL-1 alpha-induced NF-kappa B DNA-binding activity. Herbimycin A at concentrations sufficient to block IL-1 alpha-induced NF-kappa B did not block the phorbol 12-myristate 13-acetate (PMA)-induced NF-kappa B. The data suggest that IL-1 alpha and PMA activate NF-kappa B by different pathways and that induction of NF-kappa B DNA-binding activity by IL-1 might be dependent on protein tyrosine phosphorylation.

A novel mitogen-inducible gene product related to p50/p105-NF-kappa B participates in transactivation through a kappa B site

A Rel-related, mitogen-inducible, kappa B-binding protein has been cloned as an immediate-early activation gene of human peripheral blood T cells. The cDNA has an open reading frame of 900 amino acids capable of encoding a 97-kDa protein. This protein is most similar to the 105-kDa precursor polypeptide of p50-NF-kappa B. Like the 105-kDa precursor, it contains an amino-terminal Rel-related domain of about 300 amino acids and a carboxy-terminal domain containing six full cell cycle or ankyrin repeats. In vitro-translated proteins, truncated downstream of the Rel domain and excluding the repeats, bind kappa B sites. We refer to the kappa B-binding, truncated protein as p50B by analogy with p50-NF-kappa B and to the full-length protein as p97. p50B is able to form heteromeric kappa B-binding complexes with RelB, as well as with p65 and p50, the two subunits of NF-kappa B. Transient-transfection experiments in embryonal carcinoma cells demonstrate a functional cooperation between p50B and RelB or p65 in transactivation of a reporter plasmid dependent on a kappa B site. The data imply the existence of a complex family of NF-kappa B-like transcription factors.

Functional characterization of the NF-kappa B p65 transcriptional activator and an alternatively spliced derivative

The NF-kappa B transcription factor complex is composed of two proteins, designated p50 and p65, both having considerable homology to the product of the rel oncogene. We present evidence that the p65 subunit is a potent transcriptional activator in the apparent absence of the p50 subunit, consistent with in vitro results demonstrating that p65 can interact with DNA on its own. To identify the minimal activation domain, chimeric fusion proteins between the DNA binding domain of the yeast transcriptional activator protein GAL4 and regions of the carboxy terminus of p65 were constructed, and their transcriptional activity was assessed by using a GAL4 upstream activation sequence-driven promoter-chloramphenicol acetyltransferase fusion. This analysis suggests that the boundaries of the activation domain lie between amino acids 415 and 550. Moreover, single amino acid changes within residues 435 to 459 greatly diminished activation. Similar to other activation domains, this region contains a leucine zipper-like motif as well as an overall net negative charge. To identify those residues essential for DNA binding, we made use of a naturally occurring derivative of p65, lacking residues 222 to 231 (hereafter referred to as p65 delta), and produced via an alternative splice site. Gel mobility shift analysis using bacterially expressed p65, p65 delta, and various mutants indicates that residues 222 to 231 are important for binding to kappa B DNA. Coimmunoprecipitation analysis suggests that these residues likely contribute to the multimerization function required for homomeric complex formation or heteromeric complex formation with p50 in that no association of p65 delta with itself or with p50 was evident. However, p65 delta was able to form weak heteromeric complexes with p65 that were greatly reduced in their ability to bind DNA. On the basis of these findings, we suggest that subtle changes within the proposed multimerization domain can elicit different effects with the individual Rel-related proteins and that a potential role of p65 delta may be to negatively regulate NF-kappa B function through formation of nonfunctional heteromeric complexes.

Protein kinases negatively affect nuclear factor-kappa B activation by tumor necrosis factor-alpha at two different stages in promyelocytic HL60 cells

HL60 and EL4 cells incubated with tumor necrosis factor-alpha (TNF-alpha) plus staurosporin, a potent inhibitor of protein kinases, showed at least 2-fold increased levels of nuclear factor-kappa B (NF-kappa B) activity compared with TNF-alpha alone both during rapid NF-kappa B activation from the cytosolic pool and protein synthesis-dependent NF-kappa B activation. NF-kappa B activation by phorbol 12-myristate 13-acetate (PMA) and interleukin-1 was inhibited by staurosporin. Staurosporin treatment hardly affected the TNF-alpha-induced increase in mRNA for the p51 subunit of NF-kappa B but interfered with any phorbol ester (PMA)-induced increase in p51 mRNA. Thus, induction of NF-kappa B and p51 mRNA by TNF-alpha was not mediated by a staurosporin-sensitive factor, but NF-kappa B activation by TNF-alpha was even reduced by action of a staurosporin-sensitive factor. Decreased levels of phosphorylation of TNF-R alpha (TNF receptor type alpha) after staurosporin-treatment correlated with increased induction of NF-kappa B by TNF-alpha. Staurosporin-treatment did not affect TNF-R levels. Although protein kinase C stimulation by PMA inhibited NF-kappa B activation by TNF-alpha, its action mechanism may be different from that of the staurosporin-sensitive factor. PMA induced disappearance of TNF-R alpha by shedding into the surrounding medium, with kinetics similar to those of its inhibition of NF-kappa B activation by TNF-alpha. Phosphorylation may not mediate receptor shedding, since PMA treatment did not detectably affect TNF-R alpha phosphorylation.

A T cell nuclear factor resembling NF-AT binds to an NF-kappa B site and to the conserved lymphokine promoter sequence "cytokine-1"

Nuclear extracts from a nontransformed murine T lymphocyte clone contained two inducible factors that bound to a nuclear factor kappa B (NF-kappa B) site. One factor was NF-kappa B, and the other was differentiated from NF-kappa B by its mobility in the electrophoretic mobility shift assay and its lack of sensitivity to protein kinase C depletion. Competition and methylation interference assays showed that the binding site for the novel factor was limited to nucleotides in the 3' half of the kappa B site. This part of the kappa B site resembled sequences in the binding site for a second inducible nuclear factor of T cells, NF-AT, as well as a conserved sequence found in several lymphokine genes, termed "cytokine-1" (CK-1). Competition and methylation interference analysis showed that both NF-AT and CK-1 sequences bound a factor similar to the novel kappa B-binding factor and that binding involved a four-nucleotide sequence (TTCC) that the kappa B, CK-1, and NF-AT sites have in common. The complexes that form with each site have characteristics of NF-AT: they are induced upon T cell receptor stimulation, are sensitive to protein synthesis inhibitors and cyclosporin A, and are not sensitive to protein kinase C depletion. Thus, a factor or factors similar to NF-AT can bind to three distinct promoter sequences which occur commonly in several T cell activation genes. These results raise the possibility that related factors binding to kappa B, CK-1, and NF-AT sequences could play a role in the coordinate induction of T cell activation genes. In addition, our results suggest that kappa B and CK-1 sites represent potential cyclosporin-sensitive promoter elements by virtue of their ability to bind an NF-AT-like factor.

The characterization of the promoter of the gene encoding the p50 subunit of NF-kappa B indicates that it participates in its own regulation

In order to characterize the regulation of the gene encoding the p50 subunit of the transcription factor NF-kappa B, we have isolated a human genomic clone, and sequenced the promoter of this gene. By in situ hybridization we have mapped the gene encoding the p50 subunit of NF-kappa B to the 4q23-4q25 region of the human genome and the H1-H3 region of the murine chromosome 3. The p50 promoter lacks TATA and CAAT elements, but contains NF-kappa B, AP-1 and HIP-1 binding sequence. The kappa B motif binds NF-kappa B, KBF1, and heterodimers of p50 and c-rel, suggesting that the gene is regulated by members of this family. Co-transfection experiments demonstrate that the p50 promoter can be activated by either of the two subunits of NF-kappa B (p50 and p65), and more strongly by the combination of both. The promoter of p50 can be activated by phorbol esters and tumor necrosis factor alpha but not by forskolin and these responses are mediated through the NF-kappa B binding sequence. The involvement of NF-kappa B in the regulation of the p50 gene is also supported by the inhibition of the PMA activation of the promoter by an NF-kappa B transdominant negative mutant, as well as the product of the v-rel oncogene.

A novel complex between the p65 subunit of NF-kappa B and c-Rel binds to a DNA element involved in the phorbol ester induction of the human urokinase gene

The NF-kappa B subunits, p50 and p65, have extensive sequence homology with the c-rel proto-oncogene and the Drosophila morphogen dorsal. It has recently been shown that in vitro translated c-Rel can bind to DNA and form a complex with p50. However, the conditions for DNA binding of c-Rel in vivo and its DNA sequence specificity have not been established. Here we report the identification a novel heterodimeric complex that binds to a kappa B-like, phorbol ester (TPA) responsive DNA sequence, 5'-GGGAAAGTAC-3', in the 5' flanking region of the human urokinase (uPA) gene. This sequence was shown to bind two protein complexes, LC and UC. LC was indistinguishable from NF-kappa B as it reacted with antibodies recognizing the p50 subunit of NF-kappa B, and was shown by UV crosslinking to contain the p50 and p65 subunits of NF-kappa B. UC, on the other hand, strongly reacted with anti-v-Rel, but not with the anti-p50 antibodies, and was shown by crosslinking to contain 75 kDa and 85 kDa protein-DNA adducts. The 75 kDa and the 85 kDa adducts could be immunoprecipitated only by anti-p65 and anti-c-Rel antibodies, respectively, showing that c-Rel formed a heterodimer with p65. Both protein complexes were present in inactive forms in HeLa cell cytosol, and their nuclear translocation was induced by TPA. DNA binding of UC and LC could, furthermore, be inhibited by I kappa B-alpha.(ABSTRACT TRUNCATED AT 250 WORDS)

Gene sequence of mouse B-type proline-rich protein MP4. Transcriptional start point and an upstream phylogenetic footprint with ets-like and rel/NFkB-like elements

A mouse genomic B-type proline-rich protein (PRP) cosmid clone was isolated by cDNA hybridisation and mapped, the gene region was subcloned and 3770 bp were sequenced. This gene (MP4) contained three introns and encoded a 1020-nt (nt, nucleotide) mRNA for a PRP precursor 300 amino acids long arranged with 11 imperfect 18-residue proline-rich repeats. The transcriptional start point was determined by S1 nuclease mapping and primer extension to be 26 bp downstream of a TATAA sequence. Sequence comparisons revealed that only two regions from positions -650 bp - -30 bp were highly conserved in all other PRP genes, PRP boxes 1 and 2. Box 1 at positions -112 to -135 contained ets-like and rel/NFkB-like elements and was 74% conserved over 23 bp. Box 2 at positions -33 - -51 was 53% conserved over 19 bp. A search of the EMBL and GenBank sequence libraries indicated that PRP box 1 was only present upstream of the known mammalian PRP gene sequences and was absent from other genes. These conserved sequences may thus be relevant to the tissue-specific and beta-adrenergic regulation of PRP gene transcription.

Cytoplasmic retention, DNA binding and processing of the NF-kappa B p50 precursor are controlled by a small region in its C-terminus

The transcription factor NF-kappa B binds to DNA as a heterodimer composed of two subunits of 50 kDa (p50) and 65 kDa (p65). p50 contains a DNA binding and dimerization domain and represents a truncated form of a 105 kDa (p105) precursor molecule. We show here that in different cell types the p105 precursor as well as the processed p50 coexist in the cytoplasm, but that only the latter enters the nucleus. The cytoplasmic retention of the precursor molecule is controlled by a small region in its C-terminal part. We show that this region is responsible for the observed lack of DNA binding of the p50 precursor and controls the extent of processing of the precursor to the mature form. We also present evidence that a stretch of four basic amino acids, similar to a sequence found in the other proteins belonging to the rel/NF-kappa B family, is required for translocation of the processed p50 protein into the nucleus and thus could be the target for the retention mechanism.

Human T-cell leukemia virus type I Tax induces expression of the Rel-related family of kappa B enhancer-binding proteins: evidence for a pretranslational component of regulation

The Tax protein of the human T-cell leukemia virus type I (HTLV-I) serves as a potent transcriptional activator of its own long terminal repeat as well as select cellular genes, including interleukin-2 and the alpha subunit of the interleukin-2 receptor. Tax activation of these two growth-related genes appears to involve the induced nuclear expression of DNA-binding proteins that specifically engage related kappa B enhancer elements present in the 5' regulatory regions of these genes. In human T cells, kappa B enhancer-binding activity has been discerned as an unexpectedly large family of UV cross-linked nucleoprotein adducts, termed p50, p55, p75, and p85. The protein components of each of these DNA-protein adducts have been shown to share structural similarity with the v-rel oncogene product. The p55 adduct is composed of the 50-kDa subunit of NF-kappa B derived from a 105-kDa precursor polypeptide, while the p50 adduct contains a smaller protein that is closely related to NF-kappa B p50. The p75 adduct contains the 65-kDa subunit of NF-kappa B, while the p85 adduct is composed of the human c-rel proto-oncogene product. We now demonstrate that HTLV-I Tax, in the absence of other viral pX gene products, is capable of inducing the nuclear expression of all four of these kappa B-binding proteins in human T cells, with most marked effects involving c-Rel and NF-kappa B p65. Tax induction of the nuclear expression of c-Rel and NF-kappa B p50 is regulated, at least in part, at a pretranslational level involving increases in c-rel and NF-kappa B p105 mRNA expression. To study the pattern of expression of these kappa B-specific proteins in cells infected with the whole HTLV-I, seven cloned HTLV-I-infected T-cell lines were established from the peripheral blood of patients with adult T-cell leukemia. Of note, only three of these seven cell lines produced Tax, and c-rel mRNA and nuclear protein expression was confined to these three cell lines. In contrast, NF-kappa B p50 and NF-kappa B p65 were constitutively expressed in the nuclei of all seven of the HTLV-I-infected cell lines, even in the absence of detectable Tax or other viral gene expression. These findings raise the possibility of an alternate, Tax-independent pathway for the induced nuclear expression of NF-kappa B p50 and NF-kappa B p65 following HTLV-I infection.

The plasmacytoma J558L lacks constitutively active NF-kappa B and is deficient in early response gene activation

In mature B cells the nuclear factor NF-kappa B which binds within the kappa enhancer is constitutively present in the nucleus. However, the lambda light chain producing myeloma J558L has been found to lack constitutively functional NF-kappa B. Deoxycholate released functional NF-kappa B from cytoplasmic extracts and functional NF-kappa B was present in J558L following cycloheximide but not phorbol ester treatment. J558L was also unable to respond to phorbol ester stimulation with synthesis of mRNA from the early response gene TIS11. J558L differs from S107, another myeloma which was found to be deficient in the synthesis of NF-kappa B but not in the activation of TIS11. Somatic cell hybrids were used to further define the defect in J558L; hybrids were made with the myelomas S107 and S194 and the pre-B cell line 70Z/3. In general, complementation of the defect in J558L was observed; however there was not a direct correlation between the levels of TIS11 mRNA and NF-kappa B expression in the somatic cell hybrids, suggesting that the pathways of activation of these genes, while possibly sharing common elements, are not identical. The defect in J558L was surprising given that it has frequently been used for the expression of transfected light chain genes.

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.

The mouse proline-rich protein MP6 promoter binds isoprenaline-inducible parotid nuclear proteins via a highly conserved NFkB/rel-like site

Proline-rich protein (PRP) gene MP6 was isolated from a mouse BALB/c genomic DNA library in lambda EMBL3, characterised by hybridisation and restriction mapping and the promoter region, from -162 to +72 around the PRP consensus cap-site, was sequenced. In gel shift assays this region formed complexes C1 and C2 with parotid nuclear proteins which were induced by the beta-adrenergic agonist isoprenaline. DNA competition studies and direct binding assays of promoter subfragments showed that it was the sequence from -157 to -91 that was forming the isoprenaline-dependent complexes. All PRP genes conserve a 23bp. sequence, termed PRP Box1, with ets and NFkB/rel binding site-like elements, upstream of their promoters. In the MP6 promoter, PRP Box1 was within the region forming the complexes. Further gel shift assays using PRP Box1 oligonucleotides as competitors and targets indicated that the NFkB/rel binding site-like element was important in formation of the isoprenaline-inducible complexes. HeLa nuclear extracts also formed complexes with PRP Box1 similar to C1 and C2 but nuclear extracts from spleen, submandibular gland and liver did not. These complexes are thus candidate regulators for the isoprenaline-dependent and tissue-specific transcription of PRP genes.

Isolation of a rel-related human cDNA that potentially encodes the 65-kD subunit of NF-kappa B

The sequence reported in our 22 March 1991 report "Isolation of a rel-related human cDNA that potentially encodes the 65-kD subunit of NFkappaB" [Science 251, 1490 (1991)], contained some errors. Resequencing under strong denaturing conditions revealed three insertions at nucleotide positions 1194, 1212, and 1220, which changed the AA sequence from RSAR-PRLGP to QISQASALAP (residues 372 to 380), thus accounting for some of the divergence in this region. A corrected sequence has been sent to GenBank.

The dorsal morphogen gradient regulates the mesoderm determinant twist in early Drosophila embryos

A gradient of the maternal morphogen dorsal (dl) initiates the differentiation of various tissues along the dorsal-ventral axis of early Drosophila embryos. dl is a sequence-specific DNA-binding protein that is related to the mammalian regulatory factor NF-kappa B. Previous studies suggest that dl can function as a transcriptional repressor. To determine how dl functions as an activator we have examined the promoter of the mesoderm determinant gene twist (twi). Genetic studies suggest that peak levels of dl protein in ventral regions of early embryos initiate twi expression. Using a combination of promoter fusion-P-transformation assays, and in vitro DNA-binding assays coupled with site-directed mutagenesis, we establish a direct link between dl-binding sites and twi expression in the early embryo. We also present evidence that the dorsal-ventral limits of twi expression depend on the number and affinity of dl-binding sites present in its promoter. A comparison of twi with a second dl target gene, zen, suggests a correlation between the affinities of dl-binding sites and response to different thresholds of dl morphogen.

Synergism between two distinct elements of the HTLV-I enhancer during activation by the trans-activator of HTLV-I

We have conducted functional studies of the enhancer elements of human T-cell leukemia virus type I (HTLV-I) using the human T-cell lines Jurkat and MOLT 4, which are negative for HTLV-I, and MT-2 and TL-Mor, which carry the proviral genome of HTLV-I. Two distinct elements have been implicated in function of the HTLV-I enhancer. One is the 21-base-pair (bp) core element that is responsible for trans-activation by the HTLV-I trans-activator p40tax and that has the ability to bind to cyclic-AMP responsive element binding factor (CREB)-like factor(s). The other is a region interposed between the 21-bp elements. In this study we demonstrate that a subfragment (C26) in the region between the 21-bp elements is involved in trans-activation by p40tax, possibly through binding to an NF-kappa B-like nuclear factor or factors. Formation of the protein-DNA complex with the C26 subfragment was positively affected by p40tax. The C26 element conferred partial responsiveness to p40tax when linked to one copy of the 21-bp element that, by itself, showed little activation in response to p40tax. However, the C26 element alone, even when repeated, could not be activated by p40tax, unlike other NF-kappa B-binding elements. In contrast, the C26 element itself was profoundly activated upon stimulation with 12-O-tetradecanoylphorbol-13-acetate. These findings therefore suggest that the HTLV-I enhancer contains multiple functional elements, including binding sites for at least CREB- and NF-kappa B-like factors, which synergistically cooperate in activation of the HTLV-I enhancer in response to p40tax. Our results also demonstrate that TPA-dependent activation of the HTLV-I enhancer may be mediated through the C26 element.

Expression of v-rel in a replication competent virus: transformation and biochemical characterization

The avian reticuloendotheliosis virus strain T (REV-T) transforms bone marrow cells and may cause phenotypic changes in fibroblasts. Both events are thought to result from expression of the v-rel oncoprotein, a member of the NF-kappa B family of transcription factors. Most REV stocks contain a cytopathic and immunosuppressive helper virus (REV-A) unrelated to standard avian retroviruses, and thus the degree to which v-rel expression alone contributes to the transformed phenotype in bone marrow cells and fibroblasts is complicated by helper virus expression. To gain a more accurate picture of how v-rel contributes to transformation, we have cloned the v-rel gene into a replication-competent avian retrovirus vector (RCAS) and have expressed it in both chick embryo fibroblasts (CEF) and bone marrow cells. Transfection of RCAS-rel into CEF readily produced a partially transformed phenotype, demonstrating that expression of the v-rel protein is sufficient for fibroblast transformation. The RCAS-rel virus also transformed bone marrow cells in vitro, but required culture conditions different from those normally required for transformation by REV-T. The v-rel protein expressed in transformed CEF was biochemically indistinguishable from that expressed in transformed bone marrow cells, being localized to the cytoplasm and the nucleus, and forming a complex with cellular proteins. We also demonstrate that the RCAS-rel-transformed hematopoietic cells exhibited a distinct differentiation phenotype.

Cloning of an NF-kappa B subunit which stimulates HIV transcription in synergy with p65

The transcription factor NF-kappa B is a protein complex which comprises a DNA-binding subunit and an associated transactivation protein (of relative molecular masses 50,000 (50K) and 65K, respectively). Both the 50K and 65K subunits have similarity with the rel oncogene and the Drosophila maternal effect gene dorsal. The 50K DNA-binding subunit was previously thought to be a unique protein, derived from the 105K gene product (p105). We now report the isolation of a complementary DNA that encodes an alternative DNA-binding subunit of NF-kappa B. It is more similar to p105 NF-kappa B than other family members and defines a new subset of rel-related genes. It is synthesized as approximately 100K protein (p100) that is expressed in different cell types, contains cell cycle motifs and, like p105, must be processed to generate a 50K form. A 49K product (p49) can be generated independently from an alternatively spliced transcript; it has specific kappa B DNA-binding activity and can form heterodimers with other rel proteins. In contrast to the approximately 50K protein derived from p105, p49 acts in synergy with p65 to stimulate the human immunodeficiency virus (HIV) enhancer in transiently transfected Jurkat cells. p49/p100 NF-kappa B could therefore be important in the regulation of HIV and other kappa B-containing genes.

The immunosuppressant FK-506 specifically inhibits mitogen-induced activation of the interleukin-2 promoter and the isolated enhancer elements NFIL-2A and NF-AT1

The macrolide FK-506, like the cyclic undecapeptide cyclosporin A (CsA), is a potent immunosuppressant that interferes with the transcriptional activation of several early-phase genes in T lymphocytes, including that for interleukin-2 (IL-2). We compared the effects of FK-506 and CsA on transcription from the 5' upstream activating sequences (UAS) of the human IL-2 gene and several cellular and viral UAS to define cis-acting sites which may be responsive to FK-506. The UAS surveyed included the human IL-2 receptor alpha-chain, human metallothionein II, simian virus 40 early, human cytomegalovirus immediate-early, adenovirus major late, and Rous sarcoma virus long terminal repeat UAS. In addition, we studied multimers of several defined promoter elements (NFIL-2A, NF-kappa B, or NF-AT1) which are found in the UAS of the human IL-2 gene and which have been reported to be responsive to CsA when linked to a minimal promoter element (TATA box and transcription start site). Each promoter-regulatory region was fused to the bacterial chloramphenicol acetyltransferase gene and used to transiently transfect Jurkat cells. Quantitative chloramphenicol acetyltransferase assay determinations indicated that the transcriptional activity of each UAS induced upon T-cell activation was (i) completely sensitive, (ii) partially sensitive, or (iii) resistant to inhibition by CsA and FK-506. The induced transcription driven by the IL-2 promoter elements NF-AT1 and NFIL-2A could be blocked completely by FK-506 or CsA. Gel mobility shift assays indicated that the binding activities of the factors specifically interacting with these sequences were detected in activated cells regardless of whether the cells were treated with FK-506 or CsA. The results suggest that FK-506 or CsA inhibits a transacting mechanism(s) without disrupting the binding activities of these transcription factors. The degree to which each UAS was resistant to FK-506 was consistent with the level of transcription induced by phorbol myristate acetate, while UAS which were sensitive to inhibition by FK-506 were dependent on the presence of both phorbol myristate acetate and ionomycin.

Contribution of NF-kappa B and Sp1 binding motifs to the replicative capacity of human immunodeficiency virus type 1: distinct patterns of viral growth are determined by T-cell types

Starting with a replication-incompetent molecular clone of human immunodeficiency virus type 1, lacking all the NF-kappa B and Sp1 binding sites present in the native long terminal repeat (LTR), proviruses containing reconstructed LTRs with individual or combinations of NF-kappa B and Sp1 elements were generated and evaluated for their capacity to produce virus progeny following transfection-cocultivation. Virus stocks obtained from these experiments exhibited a continuum of replicative capacities in different human T-cell types depending on which element(s) was present in the LTR. For example, in experiments involving proviral clones with LTRs containing one or two NF-kappa B elements (and no Sp1 binding sites), a hierarchy of cellular permissivity to virus replication (peripheral blood lymphocytes = MT4 greater than H9 greater than CEM greater than Jurkat) was observed. Of note was the associated emergence of second-site LTR revertants which involved an alteration of the TATA box. These results suggest that the human immunodeficiency virus type 1 LTR possesses functional redundancy which ensures virus replication in different T-cell types and is capable of changing depending on the particular combination of transcriptional factors present.

Physiologic activation of T cells via the T cell receptor induces NF-kappa B

The transcription factor NF-kappa B has been implicated in the mitogen-induced expression of several genes that are critical for the immunologic function of T cells such as those encoding IL-2 and the IL-2R alpha chain (IL-2R alpha). We show here that NF-kappa B is induced in T cells activated by Ag, anti-CD3 antibody, or allogeneic stimulation. The induction of NF-kappa B via the TCR was dependent on protein kinase C. IL-2, which also activates IL-2R alpha expression and proliferation in T cells, was not able to induce NF-kappa B. TCR-mediated induction of NF-kappa B suggests a central role for this factor in activated T cells and also provides a mechanism for activation of latent HIV provirus during the normal immune response.

NF-kappa B contacts DNA by a heterodimer of the p50 and p65 subunit

We recently reported that the apparently non-DNA-binding 65 kd subunit (p65) of the NF-kappa B transcription factor can modulate the DNA-binding specificity of the 50 kd subunit (p50) of NF-kappa B. In this study we provide an explanation for this property of p65. In electrophoretic mobility shift assays and upon UV cross-linking to DNA, gel-purified p65 is shown to be a kappa B-specific DNA-binding protein on its own. The binding activity was only detectable if high amounts of p65 were used for the analyses and after the application of a modified renaturation protocol. DNA-binding of the p65 dimer, in contrast to that of p50, was inhibited by I kappa B-alpha and -beta. This finding is consistent with a receptor function of p65 for both inhibitory subunits. Direct UV cross-linking of NF-kappa B to DNA probes which were photoreactive within only one half-site and a binding competition analysis with p65 showed that p65 has a strong preference for binding to the less conserved half site of kappa B motifs whereas p50 has a moderate preference for the more highly conserved half site. In electrophoretic mobility shift assays and upon sedimentation through glycerol gradients, NF-kappa B appears to exist as a heterodimer composed of one p50 and one p65 subunit whereas data from gel filtration suggest a higher order complex.

Inhibition of transcription factors belonging to the rel/NF-kappa B family by a transdominant negative mutant

The KBF1 factor, which binds to the enhancer A located in the promoter of the mouse MHC class I gene H-2Kb, is indistinguishable from the p50 DNA binding subunit of the transcription factor NF-kappa B, which regulates a series of genes involved in immune and inflammatory responses. The KBF1/p50 factor binds as a homodimer but can also form heterodimers with the products of other members of the same family, like the c-rel and v-rel (proto)oncogenes. The dimerization domain of KBF1/p50 is contained between amino acids 201 and 367. A mutant of KBF1/p50 (delta SP), unable to bind to DNA but able to form homo- or heterodimers, has been constructed. This protein reduces or abolishes in vitro the DNA binding activity of wild-type proteins of the same family (KBF1/p50, c- and v-rel). This mutant also functions in vivo as a trans-acting dominant negative regulator: the transcriptional inducibility of the HIV long terminal repeat (which contains two potential NF-kappa B binding sites) by phorbol ester (PMA) is inhibited when it is co-transfected into CD4+ T cells with the delta SP mutant. Similarly the basal as well as TNF or IL1-induced activity of the MHC class I H-2Kb promoter can be inhibited by this mutant in two different cell lines. These results constitute the first formal demonstration that these genes are regulated by members of the rel/NF-kappa B family.

Transactivation of the human immunodeficiency virus promoter by human herpesvirus 6 (HHV-6) strains GS and Z-29 in primary human T lymphocytes and identification of transactivating HHV-6(GS) gene fragments

Human herpesvirus 6 (HHV-6) can activate the human immunodeficiency virus (HIV) promoter and accelerate cytopathic effects in HIV-infected human T cells. This study examines the regions of the HIV promoter required for HHV-6 transactivation in a heterogeneous population of primary human T lymphocytes with or without antigenic stimulation. Two different strains of HHV-6, GS and Z29, transactivated the HIV promoter. The GS strain transactivated the promoter in both stimulated and resting T cells, while the Z29 strain increased HIV promoter activity only in stimulated T cells. Three DNA clones containing HHV-6(GS) genomic fragments transactivated the HIV promoter in cotransfected T cells. A 21.4-kb DNA clone, pZVB70, showed the highest transactivating ability, while two other DNA fragments, pZVB10 (6.2 kb) and pZVH14 (8.7 kb), showed lower activity. One of these clones, pZVH14, activated the HIV promoter construct containing a mutation in the NF kappa B site. However, this mutated NF kappa B promoter was not transactivated during HHV-6(GS) infection or after cotransfection with pZVB70 or pZVB10. These data indicate that the NF kappa B sites of the HIV promoter are essential for its transactivation during HHV-6(GS) infection. By increasing HIV promoter activity in primary T lymphocytes, HHV-6 may consequently increase HIV replication, leading to an increase in the cytopathic effect on coinfected human T cells.

vRel is an inactive member of the Rel family of transcriptional activating proteins

The vRel oncoprotein is member of a family of related proteins that also includes cRel, NF-kappa B, and Dorsal. We investigated the transcriptional regulatory properties of several Rel proteins in cotransfection assays with chicken embryo fibroblasts (CEF). Retroviral vectors expressing hybrid proteins that contain the DNA-binding domain of LexA fused to portions of the viral oncoprotein vRel or chicken, mouse, human, or Drosophila melanogaster (Dorsal) cRel proteins were cotransfected with a reporter plasmid that contains the DNA sequence recognized by LexA, a promoter, and the assayable gene for chloramphenicol acetyltransferase. In transient assays, a LexA-vRel protein did not activate transcription in CEF. Full-length chicken cRel, mouse cRel, and Dorsal fusion proteins all activated transcription weakly; however, deletion of N-terminal Rel sequences from each of these proto-oncogene encoded proteins resulted in strong activation by LexA fusion proteins containing only C-terminal sequences. Inhibition of the C-terminal chicken cRel gene activation domain by N-terminal sequences was seen in CEF and mouse and monkey fibroblasts. These results show that cRel proteins from different species have the same general organization: an N-terminal inhibitory domain and a C-terminal activation domain. Sequence comparison suggests that the inhibitory domain is conserved but the activation domain is species specific. In contrast, vRel lacks a strong C-terminal gene activation function, since a LexA fusion protein containing C-terminal vRel sequences alone only weakly activated transcription. In addition, the wild-type vRel protein (lacking LexA sequences) repressed transcription from reporter plasmids containing NF-kappa B target sequences; nontransforming vRel mutants did not repress transcription from these plasmids. Our results suggest that vRel transforms cells by interfering with transcriptional activation by cellular Rel proteins.

NF-kappa B activation by tumor necrosis factor alpha in the Jurkat T cell line is independent of protein kinase A, protein kinase C, and Ca(2+)-regulated kinases

NF-kappa B is a DNA-binding regulatory factor able to control transcription of a number of genes, including human immunodeficiency virus (HIV) genes. In T cells, NF-kappa B is activated upon cellular treatment by phorbol esters and the cytokine tumor necrosis factor alpha (TNF alpha). In the present work, we investigated the molecular events leading to NF-kappa B activation by TNF alpha in a human T cell line (Jurkat) and its subclone JCT6, which presents a deficiency in the PKA transduction pathway. We found that in both cell lines, both phorbol ester and TNF alpha were able to activate NF-kappa B. Phorbol activation was positively modulated by Ca2+ influx while TNF alpha activation was not. Furthermore, while PMA activation was inhibited by the PKC inhibitor staurosporin, the TNF alpha effect was unchanged. TNF alpha did not activate cAMP production and its signal was not modulated by cAMP activators. Moreover, cAMP activators did not activate NF-kappa B in Jurkat cells. Thus, TNF alpha-induced NF-kappa B activation was found to be mediated by none of the major signal-mediating kinases such as protein kinase C (PKC), protein kinase A, or Ca(2+)-regulated kinases. Furthermore, we found that cytoplasmic acidification facilitated NF-kappa B activation by both TNF alpha and PKC, by a mechanism that increases NF-kappa B/I kappa B dissociation without affecting the NF-kappa B translocation step.

N-myc disrupts protein kinase C-mediated signal transduction in neuroblastoma

In neuroblastoma, amplification of the N-myc gene is closely correlated with increased metastatic ability. The mechanism by which N-myc acts to increase neuroblastoma malignancy is poorly understood as yet. It is shown here that transfection of N-myc in a neuroblastoma cell line causes suppression of one isoform of protein kinase C, named delta, and induction of an unusual type of protein kinase C, named zeta. N-myc-transfected neuroblastoma cells were found to be blocked in the activation of both c-fos mRNA and the NF-kappa B transcription factor by phorbol ester. Introduction of a protein kinase C expression vector in N-myc transfected neuroblastoma cells restored inducibility of both c-fos and NF-kappa B by phorbol ester. These observations indicate that changes in protein kinase C gene expression significantly alter the response of N-myc-amplified neuroblastomas to a variety of external signals.

HIV enhancer activity perpetuated by NF-kappa B induction on infection of monocytes

Permissiveness to replication of human immunodeficiency virus (HIV) differs in T lymphocytes and macrophages. In T cells, HIV transcription is poorly detected in vivo. Cloned, normal T lymphocytes show very little, if any, basal activity of the HIV enhancer and low nuclear expression of NF-kappa B, a potent transcriptional activator of the HIV enhancer. In contrast, fixed tissue macrophages express detectable HIV proteins, indicating permanent virus transcription. One explanation for the perpetuation of virus infection in macrophages could be sustained nuclear NF-kappa B expression. However, the U937 monocytic cell line, which is fully permissive to HIV replication, is known to express only low levels of nuclear NF-kappa B. We show here that chronic HIV infection results in both induction of a nuclear factor with antigenic properties indistinguishable from those of NF-kappa B and permanently increased HIV enhancer activity. This phenomenon, which is independent of tumour necrosis factor, is associated with HIV replication, and is thus likely to explain at least in part the perpetuation of HIV infection in monocytes.

Processing of the precursor of NF-kappa B by the HIV-1 protease during acute infection

Transcription of the human immunodeficiency virus type-1 (HIV-1) genome is regulated in part by cellular factors and is stimulated by activation of latently infected T cells. T-cell activation also correlates with the induction of the factor NF-kappa B which binds to two adjacent sites in the HIV-1 long terminal repeat. This factor consists of two DNA-binding subunits of relative molecular mass 50,000 (50K) associated with two 65K subunits. It is located in the nucleus in mature B cells, but is present in other cell types as an inactive cytoplasmic complex. External stimuli, including those that activate T cells, result in nuclear translocation of active NF-kappa B. The cloning of the complementary DNA for the 50K subunit helped to identify an exclusively cytoplasmic 105K precursor (p105) (V.B., P.K. and A.I., manuscript submitted). The expression of active NF-kappa B might therefore also be regulated by the extent of processing of p105. Because HIV-1 requires active NF-kappa B for efficient transcription, we tested the effect of HIV-1 infection on the processing of the human 105K precursor. We show here that the HIV-1 protease can process p105 and increases levels of active nuclear NF-kappa B complex.

Interleukin 6 response factor binds co-operatively at two adjacent sites in the promoter upstream region of the rat alpha 2-macroglobulin gene

Transcription of the alpha 2-macroglobulin gene (alpha 2M) in rat hepatocytes is strongly induced during acute inflammations by interleukin 6 (IL6). An IL6-response region has previously been mapped in the promoter upstream sequence of this gene. The region consists of two adjacent elements (IL6-REs), the IL6-RE core (CTGGGAA, -164 to -158 bp) and the core homology (CTGGAAA, -184 to -178 bp), elements, that are located 20 bp apart. Both elements bind nuclear factors with very similar protein-DNA contact patterns when they are contained in their original sequence context. A protein-DNA complex III was obtained in gel mobility shift experiments using a probe individually representing the core site. With probes containing both the core and core homology sites, a hormone inducible complex II of slower mobility was obtained. Complex II consisted of multiple copies of the same protein or proteins with very similar molecular masses bound at both sites. The core homology site was the weaker binding site. With a probe containing two tandem copies of the core site, binding at the second site occurred with 81 times greater affinity when the first site was occupied, than when it was free. Thus, the factor binding at the IL6-REs, the IL6-RE binding protein (IL6 RE-BP), was capable of co-operatively interacting with itself. Another factor, IL6-DBP/LAP, has recently been shown to be involved in the regulation of a major subgroup of acute phase genes by IL6. Using recombinant IL6-DBP/LAP and corresponding antisera, we demonstrated here that the IL6 RE-BP of the alpha 2M gene was distinct from IL6-DBP/LAP and from the related factor DBP. Thus, two major IL6-response elements can be distinguished: type 1 elements occurring in the human C-reactive protein, hemopexin and haptoglobin genes and utilizing IL6-DBP/LAP; and type 2 elements occurring in the rat alpha 2M, and alpha 1-acid glycoprotein genes, and utilizing a different IL6 RE-BP. The IL6 RE-BP of the alpha 2M gene was also shown to be distinct from the transcription factor NF kappa B. The IL6RE-BP had relative molecular mass of Mr = 46,000, distinct from IL6-DBP/LAP (Mr = 32,000) and NF kappa B (Mr = 50,000) and its overall DNA binding capacity was induced under acute phase conditions.

Differential precipitation and zinc chelate chromatography purification of biologically active HTLV-I Tax1 expressed in E. coli

A protocol which involves sequential ammonium sulfate precipitation and zinc chelate chromatography to purify the HTLV-I Tax1 protein expressed in E. coli is described. The final Tax1 product is greater than 90% pure and the yield is approximately 1 mg per liter of liquid culture. The purified Tax1 protein is biologically active in indirect in vitro DNA binding assays and cellular NF-kB induction experiments.

Expression of a mRNA related to c-rel and dorsal in early Xenopus laevis embryos

We describe a Xenopus mRNA, Xrel1, that is related to the avian protooncogene c-rel, the embryonic pattern gene dorsal of Drosophila, and the mammalian transcription factor NK-kappa B/KBF1. The sequence of Xrel1 is homologous to the other rel-related proteins in the large amino-terminal region that defines this class of transcriptional regulators, but the carboxyl-terminal part of the protein is quite different. Xrel1 mRNA is present throughout oogenesis and during early embryogenesis at 4 x 10(5) transcripts per oocyte or embryo. Xrel1 transcripts are present in all of the dissected parts of early embryos that we have examined. They are enriched in the animal hemisphere compared to the vegetal hemisphere of oocytes and blastulae.

Cyclic AMP-independent activation of transcription factor NF-kappa B in HL60 cells by tumor necrosis factors alpha and beta

No correlation exists in HL60 cells between NF-kappa B activation by tumor necrosis factor (TNF alpha) and TNF beta and intracellular levels of cyclic AMP. Cyclic AMP levels did not increase upon treatment of cells with each of these cytokines, although NF-kappa B was activated. Forskolin or 1-isobutyl-3-methylxanthine drastically increased intracellular levels of cyclic AMP, but neither activated NF-kappa B nor influenced TNF-induced NF-kappa B activation.

Isolation of a rel-related human cDNA that potentially encodes the 65-kD subunit of NF-kappa B

A DNA probe that spanned a domain conserved among the proto-oncogene c-rel, the Drosophila morphogen dorsal, and the p50 DNA binding subunit of NF-kappa B was generated from Jurkat T cell complementary DNA with the polymerase chain reaction (PCR) and degenerate oligonucleotides. This probe was used to identify a rel-related complementary DNA that hybridized to a 2.6-kilobase messenger RNA present in human T and B lymphocytes. In vitro transcription and translation of the complementary DNA resulted in the synthesis of a protein with an apparent molecular size of 65 kilodaltons (kD). The translated protein showed weak DNA binding with a specificity for the kappa B binding motif. This protein-DNA complex comigrated with the complex obtained with the purified human p65 NF-kappa B subunit and binding was inhibited by I kappa B-alpha and -beta proteins. In addition, the 65-kD protein associated with the p50 subunit of NF-kappa B and the kappa B probe to form a complex with the same electrophoretic mobility as the NF-kappa B-DNA complex. Therefore the rel-related 65-kD protein may represent the p65 subunit of the active NF-kappa B transcription factor complex.