Partial purification of a nuclear protein that binds to the CCAAT box of the mouse alpha 1-globin gene

Organization of a β and α globin gene set in the teleost Atlantic cod, Gadus morhua

Developmental globin gene expression and gene switching in vertebrates have been extensively studied. Globin gene regions have been characterized in some fish species and show linked α and β loci. Understanding coordinated expression between α and β globin genes in fish is of importance for further insights into globin gene regulation in teleosts and higher vertebrates. We characterize linked β and α globin genes in Atlantic cod, pulled from the Atlantic cod genome with a PCR research strategy, by screening a genomic λ library and primer walking. The genes are oriented tail-to-head (5'-3'), differing from the head-to-head orientation in transcriptional polarity characteristic of teleostean globin genes. Four tandem repeats are found in an intergenic region of 1500 base pairs. One microsatellite, which consists primarily of atg tandem repeats, has an open reading frame. The globin genes and open reading frame have a CCAAT promoter element and TATA boxes. The promoters of the open reading frame and the β gene share an 89-bp block (with 100% identity) that probably regulates transcription.

Modulation of basal expression of the human alpha1(I) procollagen gene (COL1A1) by tandem NF-1/Sp1 promoter elements in normal human dermal fibroblasts

We previously demonstrated that a segment of the human alpha1 type I procollagen gene (COL1A1) promoter encompassing nt -174 to -84 is responsible for the highest transcriptional activity in collagen producing cells in vitro. Here, we identified two almost identical tandem NF-1/Sp1 binding sites located between nt -129 to -107 (distal element) and nt -104 to -77 (proximal element) that are responsible for the basal regulation of COL1A1 transcription in normal human dermal fibroblasts. Transient transfection studies revealed that 85% of the basal COL1A1 promoter activity resides within the distal element; however, site-directed mutagenesis within the CCAAT motif in the proximal element resulted in a 98% decrease of the COL1A1 promoter activity. We conclude that each of the NF-1/Sp1 tandem binding sites has a different function. The distal element drives the transcriptional activity of the COL1A1 promoter but is not sufficient for its basal expression, whereas the NF-1 binding site in the proximal element is essential for in vitro COL1A1 gene transcription.

Purification of a heteromeric CCAAT binding protein from Neurospora crassa

Expression of the Neurospora crassa am (NADP-specific glutamate dehydrogenase) gene is controlled by two upstream enhancer-like elements designated URSam alpha and URSam beta. URSam alpha is localized between - 1.3 and - 1.4 kb with respect to the major transcriptional start site. Deletion of a 90 bp sequence containing this element resulted in the loss of approximately 50% of normal glutamate dehydrogenase expression. Gel mobility shift analysis indicated that a nuclear protein from Neurospora binds in a specific manner to sequences within the 90 bp fragment. We have now used a combination of ion-exchange and affinity chromatography to purify this nuclear protein, which we call Am Alpha Binding protein (AAB). The activity was monitored by gel shift analysis. The protein was purified more than 14,000-fold with a yield of approximately 7%. The purified protein appears as a heteromer on denaturing polyacrylamide gel electrophoresis, with only two strong bands visible in silver-stained preparations. One band has an apparent molecular mass of 40 kDa, the other appears as a doublet with an apparent molecular mass of 30 kDa. DNAse I protection analysis indicated a protected region consisting of 30 bp, which contains a CCAAT pentanucleotide motif. Mutagenesis of the CCAAT motif abolished the binding of AAB to the DNA fragment.

Major histocompatibility complex class II-associated invariant chain gene expression is up-regulated by cooperative interactions of Sp1 and NF-Y

Expression of the major histocompatibility complex (MHC) class II-associated invariant chain (Ii) is required for efficient and complete presentation of antigens by MHC class II molecules and a normal immune response. The Ii gene is generally co-regulated with the MHC class II molecules at the level of transcription and a shared SXY promoter element has been described. This report defines the proximal promoter region of Ii which may regulate Ii transcription distinct from MHC class II. In vivo genomic footprinting identified an occupied, imperfect CCAAT box and an adjacent GC box in the proximal region. These sites are bound in Ii-ositive cell lines and upon interferon-gamma induction of Ii transcription. In contrast, both sites are unoccupied in Ii-egative cell lines and in inducible cell lines prior to interferon-gamma treatment. Together these two sites synergize to stimulate transcription. Independently, the transcription factor NF-Y binds poorly to the imperfect CCAAT box with a rapid off rate, while Sp1 binds to the GC box. Stabilization of NF-Y binding occurs upon Sp1 binding to DNA. In addition, the half-life of Sp1 binding also increased in the presence of NF-Y binding. These findings suggest a mechanism for the complete functional synergy of the GC and CCAAT elements observed in Ii transcription. Furthermore, this report defines a CCAAT box of imperfect sequence which binds NF-Y and activates transcription only when stabilized by an adjacent factor, Sp1.

DNA-binding proteins for transcription enhancing region of HLA class I gene

Class I regulatory complex (CRC) located in the 5'-upstream region of MHC class I gene contains transcriptional enhancing sequences, called Enh A. This Enh A region contains tandem-arranged kappa B-like sites, one of which has a well-conserved perfect palindromic sequence. The second kappa B-like site, juxtaposed to the perfect palindrome, contains an imperfect palindromic sequence. In B-cell nuclear extracts, we have identified at least four sequence-specific protein complexes; three shared the repeated kappa B enhancer as their binding motifs. The perfect palindromic sequence facilities the binding of a complex termed BI, while the imperfect palindrome provides the binding sites for two other complexes, BII and BIII. The BII and BIII complexes exhibited binding crossreactivity with other kappa B-related motifs and recognized both the perfect and imperfect palindromic sequences, whereas the BI complex was specific for the perfect palindromic sequence which is unique to the class I promoters. A DNA segment outside the repeated kappa B enhancers probably binds the fourth complex, BIV. These complexes, except for the perfect palindrome-binding complex, differ from those described for the murine class I promoter. The binding characteristics of these factors suggest that the mechanism controlling the class I transcription may be quite complex.

Coordinate regulation of replication and virion sense gene expression in wheat dwarf virus

We have investigated the relationship between viral DNA replication and virion sense gene expression in wheat dwarf virus (WDV), a member of the geminivirus group, by testing a series of deletion mutants in transfected Triticum monococcum (einkorn) protoplasts. Mutants contained a transcription fusion of the chloramphenicol acetyltransferase coding sequence to the virion sense promoter that replaced the viral coat protein coding sequence. The deletion analysis revealed that WDV replication and virion sense transcription can proceed independently and are controlled in part by nonoverlapping elements in the large intergenic region. These data and those from a C2 open reading frame (ORF) frameshift mutant also showed that the product of the C2 ORF (C1-C2 protein) is independently involved in both DNA replication and activation of the virion sense promoter. The amino acid sequences encoded by C2, which are highly conserved in the geminivirus group, show some homology to the DNA binding domain of the myb-related class of plant transcription factors. The possible involvement of the host in controlling the function of the C1-C2 protein and the implication of these data for the development of WDV-based gene vectors are discussed.

Structural organization and regulatory regions of the human medium-chain acyl-CoA dehydrogenase gene

Medium-chain acyl-CoA dehydrogenase (MCAD) is a highly regulated mitochondrial flavo-enzyme that catalyzes the initial reaction in fatty acid beta-oxidation. Deficiency of MCAD is a common inherited defect in energy metabolism. We have previously shown that the mRNA encoding MCAD in an MCAD-deficient child is homozygous for the point mutation A985 to G [Kelly et al. (1990) Proc. Natl. Acad. Sci. U.S.A. 87, 9236-9420]. To define the molecular basis of MCAD deficiency and as an initial step in the study of the regulation of MCAD gene expression, we determined the structure and organization of the human MCAD gene. The gene is comprised of 12 exons which span 44 kb of DNA. Comparison of the MCAD gene to MCAD mRNAs from the MCAD-deficient child revealed that missplicing was common, resulting in a variety of exon deletions and intron insertions. The MCAD gene promoter region is extremely GC-rich and lacks prototypical TATA and CAAT boxes. Several regions upstream of the promoter are homologous with mitochondrial enhancers purportedly involved in coordinate expression of nuclear genes encoding mitochondrial proteins. Transfection of chimeric plasmid constructs with 299 bp of upstream sequence into HepG2 cells revealed high-level transcriptional activity. We conclude that the precursor MCAD mRNA is misspliced to a high degree and complexity in association with the G985 mutation and the MCAD gene contains a strong promoter which shares some structural features with other "housekeeping" genes encoding mitochondrial proteins.

Activity and enhancer binding factors for BK virus regulatory elements in differentiating embryonal carcinoma cells

We have studied cell type specificity of expression of the human papovavirus BK regulatory elements in undifferentiated and differentiated embryonal carcinoma (EC) cells as a model system. While the activity of the regulatory elements of this virus was marginal in undifferentiated cells, differentiation by retinoic acid and DMSO resulted in a dramatic increase in the activity. To correlate in vivo activity of the regulatory elements with interaction with cellular transcription factors, we performed DNase I footprinting experiments. A GC-rich region was protected in both undifferentiated and differentiated cells. An additional four protected sites were detected in retinoic acid-differentiated cells and at least one of these additional sites was weakly protected in DMSO-differentiated cells. The sequences of the differentiated cell type-specific protected regions showed homology to a nuclear factor 1 (NF-1) binding motif and to a muscle creatine kinase gene enhancer motif. The intensity, competition, and pattern of protection of these sites were different in the two differentiated cell types, suggesting the involvement of different transcription factors regulating the activity of BKV regulatory elements in the two cell types.

DNA-binding proteins that interact with the long terminal repeat of radiation leukemia virus

We used the electrophoretic mobility shift assay to identify the interactions of nuclear proteins with the long terminal repeat of leukemogenic, thymotropic BL/VL3 radiation leukemia virus (RadLV). In the promoter region, we identified a CCAAT box-binding protein (CBP) that has the same binding characteristics as the CCAAT box-binding protein that binds to the Moloney murine sarcoma virus promoter and most likely represents the CP1 factor. In the upstream enhancer region unique to BL/VL3, we detected several sequence-specific complexes, one with T-lymphocyte extracts but not with fibroblast extracts. This U3 region, UEB, may be important for the T-cell specificity of BL/VL3 RadLV. In the enhancer, which has been uniquely rearranged in this virus, we identified three specific protein-binding sites. Two of them showed characteristics of the LVb and core binding sites previously described for other murine retroviruses. But one binding site, identified as Rad-1, is unique to BL/VL3 RadLV and was found downstream, only 1 nucleotide from the core sequence. Rad-1 has a corelike motif on the minus strand, and the factor that binds to it could be competed by a BL/VL3 core-containing fragment. Moreover, the protein-DNA contacts involve the typical three core Gs separated by one T. These results suggest that Rad-1 binds a factor identical or similar to the core-binding factor. Our data suggest that the LVb, core, and Rad-1 motifs may be sufficient for this enhancer, most likely in association with other U3 long terminal repeat sequences, to promote a high rate of transcription of BL/VL3 RadLV in its specific target cells (thymocytes).

The pathobiology of ozone-induced damage

Ozone remains one of the three most important air pollutants worldwide, yet little direct documented evidence of its genotoxicity exists. The interest in the pathology of ozone exposure and the molecular events that underlie its course stems from DNA damage caused by oxygen stress including hydroxyl radicals, superoxide, singlet oxygen, and hydrogen peroxide. Although the tissue damage associated with ozone inhalation occurs at both the conducting airway and the alveolus, the cellular and mechanistic processes underlying these events are less well understood. Ozone leads to the oxidative decomposition of polyunsaturated fatty acids. Ozone also depresses DNA replication in V79 Chinese hamster lung fibroblasts in a dose-dependent fashion (concentration, 1-10 ppm), which indicates that ozone or its reaction products may interact directly with DNA and inhibit replication. Ozone also linearizes circular DNA and induces ozone-sensitive mutant and pneumocytes to repair its DNA. DNA adducts have been implicated in aging, cellular transformation, mutagenesis, carcinogenesis, and cell death; DNA adducts are products of free radical damage. These events are all common in ozone exposure. Finally, DNA-binding proteins are potent positive and negative regulators, enhancers, or silencers of gene expression. Part of their action may be related to their ability to initiate the binding sequence of DNA transcription proteins and thus form complexes. Alteration of DNA-binding sites by ozone adducts may effect mRNA transcription due to altered binding by DNA-binding proteins. This altered transcription has been shown to effect growth factors involved in collagen and matrix regulation. The present review will address some of the complexities involved in ozone exposure.(ABSTRACT TRUNCATED AT 250 WORDS)

Structural and functional organization of a porcine gene coding for nuclear factor I

This paper describes the structure of a 70-kb porcine gene for nuclear factor I, including its promoter region, comprising a total of 11 exons. Different mRNAs that we have isolated as cDNAs from both porcine liver and human HeLa cells presumably are generated from this gene by differential splicing events. One cDNA species from porcine liver that lacks exon 9 carries coding information for a protein of 439 amino acids. The in vitro translated protein displays all the properties of an NFI-like protein with high affinity toward the sequence element TGG(N)6GCCAA, as shown by gel shift analysis, and no or little affinity toward CCAAT box containing sequences. Cotranslation experiments with full-length and truncated variants of the protein demonstrate that it binds as a dimer to its cognate DNA recognition sequence. Its DNA-binding domain which is retained in all cDNA clones was mapped by deletion analysis to the 250 N-terminal amino acids of the protein. No structural homologies are observed between this protein and other known DNA-binding proteins; instead, the protein contains a novel alpha-helical sequence motif consisting of several lysine residues spaced at intervals of seven amino acids which we have termed the "lysine helix". The C-terminal portion of the protein derived from full-length cDNAs encodes a short amino acid sequence which is identical with the heptapeptide repeat CT7 observed in the C-terminal domain of the largest subunits of yeast and mouse RNA polymerase II. This region is removed by differential splicing in some of the NFI/CTF cDNAs and thus may be of functional significance.

Induced differentiation of erythroleukemia cells by hexamethylene bisacetamide: a model for cytodifferentiation of transformed cells

There is considerable evidence that malignant transformation need not eliminate the potential for a cell to express its developmental capabilities. This review explores the process whereby polar compounds, hexamethylene bisacetamide (HMBA) in particular, induce murine erythroid leukemoid cells (MELC) to express the differentiated erythroid phenotype, including hemoglobin production and cessation of cell division. This is a multi-step process which, although the mechanisms of action of HMBA are not yet fully understood, is amenable to experimental definition and analysis. Early effects, including changes in protein kinase C activity, in ion transport, and in expression of certain nuclear proto-oncogenes, have been examined in relation to the onset of terminal cell differentiation. This experimental experience has formed the context for initiating preliminary clinical studies designed to examine the pharmacology of HMBA and to explore its potential for modifying the natural history of cancer.

Human H1 histone gene promoter CCAAT box binding protein HiNF-B is a mosaic factor

Vertebrate histone gene promoters in many cases contain an upstream element, 5'dCCAAT, that has been implicated in modulating the efficiency of transcription of a broad spectrum of genes. We have previously isolated a nuclear factor (HiNF-B) that binds specifically to the CCAAT element of a cell cycle regulated human H1 histone gene. This factor shows similarities with other CCAAT box binding proteins in that it recognizes the same sequence but shows a distinct chromatographic behavior. In the present study, we have employed the gel retardation assay to demonstrate that HiNF-B is a cell cycle independent DNA binding protein that is conserved in both human and mouse cells. Using a series of reconstitution experiments with partially purified HiNF-B fractions, we show that this factor requires association of at least two components for site-specific binding. The composite structure of HiNF-B suggests that binding of at least some CCAAT elements in vertebrates may require cooperative interaction of CCAAT box binding proteins with other factors.

Hexamethylene bisacetamide-induced differentiation of transformed cells: molecular and cellular effects and therapeutic application

Hexamethylene bisacetamide (HMBA), a highly polar compound, induces murine erythroleukemia (MEL) cells to express the erythroid phenotype, including cessation of proliferation. Inducer-mediated differentiation of MEL (DS19) cells is a multistep process characterized by a latent period during which a number of changes occur including alterations in ion flux, an increase in membrane-bound protein kinase C (PKC) activity, the appearance of Ca2+ and phospholipid-independent PKC activity in the cytosol, and modulation in expression of a number of genes such as c-myc, c-myb, c-fos and the p53 genes. HMBA-mediated commitment to terminal differentiation is first detected at about 12 hours and increases in a stochastic fashion until over 95% of the population is recruited to terminal differentiation by 48 to 60 hours. Commitment is associated with persistent suppression of c-myb gene expression. By 36 to 48 hours, transcription of the globin genes has increased 10 to 30 fold, whereas transcription from rRNA genes is suppressed. The steroid, dexamethasone, or the tumor promoter, phorbol-12-myristate-13-acetate (TPA), suppress HMBA-induced MEL cell terminal differentiation. These agents appear to act at a late step during the latent period. MEL cell lines derived from DS19 by selection for resistance to vincristine are: 1) induced to commit without a detectable latent period, 2) markedly more sensitive to HMBA, and 3) resistant to dexamethasone or TPA inhibition of HMBA-induced commitment. The data suggests that vincristine-resistant MEL cells express a factor which circumvents essential HMBA-mediated early events. In vitro studies with HMBA provide a basis for the application of HMBA to clinical therapy of human cancers. Clinical trials with HMBA have been initiated.

Human CCAAT-binding proteins have heterologous subunits

We have characterized three distinct proteins present in HeLa cell extracts that specifically recognize different subsets of transcriptional elements containing the pentanucleotide sequence CCAAT. One of these CCAAT-binding proteins, CP1, binds with high affinity to CCAAT elements present in the human alpha-globin promoter and the adenovirus major late promoter (MLP). A second protein, CP2, binds with high affinity to a CCAAT element present in the rat gamma-fibrinogen promoter. Finally, the third CCAAT-binding protein is nuclear factor I (NF-I), a cellular DNA-binding protein that binds to the adenovirus origin of replication and is required for the initiation of adenoviral replication. CP1, CP2, and NF-I are distinct activities in that each binds to its own recognition site with an affinity that is at least three orders of magnitude higher than that with which it binds to the recognition sites of the other two proteins. Surprisingly, CP1, CP2, and NF-I each appear to recognize their binding site with highest affinity as a multisubunit complex composed of heterologous subunits. In the case of CP1, two different types of subunits form a stable complex in the absence of a DNA-binding site. Moreover, both subunits are present in the CP1-DNA complex. We thus propose the existence of a family of related multisubunit CCAAT-binding proteins that are composed of heterologous subunits.

Expression of G gamma and A gamma globin genes in human adults

Expression of the human fetal G gamma and A gamma globin genes declines shortly after birth, and adults generally have less than 1% fetal hemoglobin or Hb F (alpha 2 gamma 2). However, some adults with hereditary persistence of fetal hemoglobin (HPFH) have elevated expression of either the G gamma or A gamma gene due to a mutation in its upstream promoter. Mutations with strong effects on expression have been found at -175 and -202 of the G gamma gene and at -117, -196, -198 and -202 of the A gamma gene. Mutations at -158 and -161 of G gamma have weaker effects, which are observable primarily as increases in the G gamma:A gamma ratio. Published data are reviewed which suggest that the -158 mutation may lead to observable elevations of Hb F in SS and beta(0)-thal patients and occasionally in normal non-anemic individuals. These data also suggest that additional high Hb F determinants are linked to Benin, Bantu and Asian beta S haplotypes in some instances. A model based on data from SV40 is presented which suggests that specific DNA sequence motifs of the gamma globin gene may bind regulatory proteins. It is proposed that the -158 and -161 mutations have weak effects because they are located on the fringe of regulatory sequence motifs.

The developmentally regulated expression of two linked myosin heavy-chain genes

The organization of two linked chicken myosin heavy-chain (MHC) genes is described. Using probes derived from the 3' and 5' ends of the genes, chromosome walks were carried out, resulting in the isolation of a clone which encompassed the 5' end of one MHC gene and the 3' end of a different MHC gene. Further analysis showed that both genes (each approximately 25 kbp in length) are oriented head to tail and are separated by an intergenic region of 7.5 kbp. Despite extensive homologies, a transcript-specific probe for each of the genes could be prepared from the 5' untranslated regions. These probes were used to determine the transcriptional pattern for each of the genes. The data show that the gene located at the 5' end of the linkage pair is expressed during the neonatal stages of development, while the gene located at the 3' end of the pair is expressed predominantly during the embryonic stages of development.

Reversible silencing of enhancers by sequences derived from the human IFN-alpha promoter

The virus-responsive element of the IFN-alpha 1 promoter, VRE(IFN alpha), comprises two imperfect 19 bp repeats, repA and repB. VRE(IFN alpha), tetrameric repA, and tetrameric GAAAGT (a subsequence of repB) or tetrameric AAGTGA conferred inducibility on a reporter gene when placed upstream of a complete or truncated promoter. Induced transcription was weak with a minimal promoter (TATA box only), but was strongly stimulated by the SV40 enhancer placed immediately upstream of the inducible element. Surprisingly, under noninduced conditions, tetrameric repA, GAAAGT, and AAGTGA (but not VRE(IFN alpha)) completely silenced enhancement of constitutive transcription by the SV40 72 bp repeat when interposed between the latter and the TATA box; silencing was fully abrogated by induction.

A multiplicity of CCAAT box-binding proteins

NF-Y is a sequence-specific DNA-binding protein that recognizes the Y box, a promoter element common to all major histocompatibility complex class II genes. Since the 14-base Y element harbors a CCAAT box in reverse, we were prompted to ask whether NF-Y is actually a CCAAT box-binding protein and whether it is related to the previously described CCAAT-binding factors CBP and CTF/NF-I. Data from gel retardation, methylation interference, saturation mutagenesis, and cross-competition experiments establish definitively that NF-Y is an entirely distinct CCAAT box-binding entity. Moreover, these experiments have uncovered a fourth CCAAT-binding protein, NF-Y(star) that interacts with the thymidine kinase promoter. Clearly, then, there exists a multiplicity of factors that recognize CCAAT sequences; it now becomes imperative to understand the functional significance of this multiplicity.

Mutually exclusive interaction of the CCAAT-binding factor and of a displacement protein with overlapping sequences of a histone gene promoter

The sperm histone H2B-1 gene of the sea urchin Psammechinus miliaris contains two octamer sequences (ATTTGCAT) and two CCAAT motifs upstream of its TATA box. The CCAAT-binding factors present in nuclear extracts from testis and from blastula and gastrula embryos are indistinguishable by mobility shift and methylation interference analysis. However, there is a testis-specific octamer-binding factor in addition to the ubiquitous form. In DNAase I protection experiments, the CCAAT-binding factor of only the testis extract is able to interact with the sperm H2B promoter. In the two embryonic extracts a novel factor binds with high affinity to sequences overlapping the proximal CCAAT element, thus preventing the DNA interaction of the CCAAT-binding factor in the embryo where the sperm H2B gene is not expressed. This CCAAT displacement protein may therefore act as a repressor of sperm H2B gene transcription.

A cellular DNA-binding protein that activates eukaryotic transcription and DNA replication

Transcription factor CTF, which is responsible for selective recognition of eukaryotic promoters that contain the sequence CCAAT, was purified to apparent homogeneity by sequence-specific DNA affinity chromatography. Binding sites for CTF in the human Ha-ras and alpha-globin promoters were highly homologous to sequences recognized by nuclear factor I (NF-I), a cellular DNA-binding protein that is required for the initiation of adenovirus DNA replication in vitro. To determine the relationship between CTF and NF-I, we compared the biochemical properties of these two proteins. CTF and NF-I were found to be indistinguishable in polypeptide composition, DNA-binding properties, immunological cross-reactivity, and in vitro stimulation of DNA replication and transcription initiation. We conclude that CTF/NF-I can serve both as a transcription selectivity factor for RNA polymerase II and as an initiation factor for adenovirus DNA replication.