The "initiator" as a transcription control element

Recombinant 43-kDa USF binds to DNA and activates transcription in a manner indistinguishable from that of natural 43/44-kDa USF

USF is a cellular factor involved in the transcriptional regulation of several cellular and viral promoters. Purified USF from HeLa cells (HeLa USF) consists of 43- and 44-kDa polypeptides which show independent binding to a specific DNA element. A cDNA encoding the 43-kDa species has been previously cloned. We show here that the purified form of bacterially expressed 43-kDa USF (i) exists in solution as a dimer whose formation is greatly favored under reducing conditions, (ii) binds to its cognate DNA sequence in a manner indistinguishable from that of HeLa USF, and (iii) is as efficient as HeLa USF in stimulating transcription from target promoters in a reconstituted cell-free system. Additional data indicate that the 44-kDa component of HeLa USF is immunologically unrelated to the 43-kDa polypeptide but is associated with it in HeLa cell extracts. These results suggest that the 43-kDa component possesses an intrinsic DNA binding and transcriptional activation potential and that the 44-kDa USF component of the natural USF complex may have some regulatory role.

LyF-1, a transcriptional regulator that interacts with a novel class of promoters for lymphocyte-specific genes

We have studied transcriptional control of the murine terminal deoxynucleotidyltransferase (TdT) gene, which is activated specifically in immature B and T lymphocytes. This analysis has led to the identification and purification of a 50-kDa sequence-specific DNA-binding protein, LyF-1, that interacts with the approximate consensus sequence PyPyTGGGAGPu and is enriched in cells at most stages of B- and T-cell differentiation. LyF-1 binds tightly to an element in the TdT promoter that we show is required for transcription in lymphocytes. LyF-1 also interacts with an element in the immunoglobulin mu enhancer, called microB, that was recently shown to be important for lymphocyte-specific enhancer activity. Moreover, LyF-1 binds to the promoters for the lymphocyte-specific genes lambda 5, VpreB, and lck, all of which we speculate have additional features in common with the TdT promoter. Thus, LyF-1 may be a general transcriptional activator for genes whose expression is restricted to the B- and/or T-lymphocyte lineages.

Alpha-amanitin-resistant transcription units in trypanosomes: a comparison of promoter sequences for a VSG gene expression site and for the ribosomal RNA genes

Transcription of the predominant surface antigen genes in Trypanosoma brucei is unusual in its resistance to the RNA polymerase inhibitor alpha-amanitin, a property typical for rDNA transcription in eukaryotes. Transcription of most other protein-coding genes in trypanosomes is sensitive to alpha-amanitin. To investigate whether RNA polymerase I, the polymerase that transcribes rRNA genes, can give rise to functional mRNAs in trypanosomes, we have fused the putative promoter of the T.brucei rRNA genes to the chloramphenicol acetyl transferase (CAT) gene and determined CAT activity after transient expression of chimeric constructs in procyclic trypanosomes. We show here that the rRNA promoter yields the same high CAT activity as the promoters for the two predominant surface antigen genes of trypanosomes, the Variant-specific Surface Glycoprotein (VSG) gene of bloodstream trypanosomes and the procyclin gene of insect-form trypanosomes, both of which are also transcribed by an alpha-amanitin-insensitive RNA polymerase. RNA polymerase I of trypanosomes seems therefore able to synthesize pre-mRNAs that are effectively processed into translatable mRNAs. Dissection of the promoter segments showed the minimal elements for a VSG gene expression site promoter to be confined to a segment of -60 to +77 bp, overlapping the most 5' putative transcription start sites as determined in vivo by RNase protection experiments. For the ribosomal promoter region a segment of -258 to +200 bp relative to the putative transcription start site was sufficient for maximal CAT activity. There is a precise requirement for specific nucleotides at the rRNA transcription start site. We detect no homology between the sequences required for promoter function of the three alpha-amanitin-resistant transcription units, rRNA, VSG and procyclin (parp) genes. This suggests that the sequence-specific recognition of these promoters either occurs by common factors detecting sequence homologies that escape us, or by separate factors that bind to different DNA sequences but interact with a common alpha-amanitin-resistant RNA polymerase.

Dominant and recessive genes involved in tumor cell invasion

The past year has been the discovery and further analysis of several genes and protein products that are critically involved in the generation of invasive and metastatic tumor cells. Like oncogenes and tumor suppressor genes, the genes responsible for invasive and metastatic phenotypes can function in a dominant or recessive fashion. In this review, particular emphasis will be given to the dominantly acting genes encoding the cell adhesion molecule CD44 and the motility factor scatter factor, and the recessively acting genes encoding the cell adhesion molecule E-cadherin and nm23.

LyF-1, a transcriptional regulator that interacts with a novel class of promoters for lymphocyte-specific genes

We have studied transcriptional control of the murine terminal deoxynucleotidyltransferase (TdT) gene, which is activated specifically in immature B and T lymphocytes. This analysis has led to the identification and purification of a 50-kDa sequence-specific DNA-binding protein, LyF-1, that interacts with the approximate consensus sequence PyPyTGGGAGPu and is enriched in cells at most stages of B- and T-cell differentiation. LyF-1 binds tightly to an element in the TdT promoter that we show is required for transcription in lymphocytes. LyF-1 also interacts with an element in the immunoglobulin mu enhancer, called microB, that was recently shown to be important for lymphocyte-specific enhancer activity. Moreover, LyF-1 binds to the promoters for the lymphocyte-specific genes lambda 5, VpreB, and lck, all of which we speculate have additional features in common with the TdT promoter. Thus, LyF-1 may be a general transcriptional activator for genes whose expression is restricted to the B- and/or T-lymphocyte lineages.

c-mos expression in mouse oocytes is controlled by initiator-related sequences immediately downstream of the transcription initiation site

We have employed transient expression assays to analyze the sequences that direct c-mos transcription in mouse oocytes. Plasmids containing the chloramphenicol acetyltransferase (CAT) gene fused to either a 2.4-kb or a 731-bp fragment from the 5'-flanking region of c-mos produced similar levels of CAT activity when injected into nuclei of growing oocytes. BAL 31 deletions revealed that sequences up to 20 bp upstream of the major transcription start site could be removed without any significant loss of CAT activity. Promoter activity only decreased when these deletions closely approached the transcription start site, which was mapped at 53 nucleotides upstream of the first ATG in the c-mos open reading frame. On the other hand, deletion of sequences within 20 nucleotides downstream of the transcription initiation site resulted in a 10-fold reduction in CAT expression. A similar decrease in promoter activity was observed as a result of point mutations in these 5' untranslated sequences. Thus, sequences immediately downstream of the transcription start site, including a consensus sequence (PyPyCAPyPyPyPyPy) present in the initiator elements of several genes, appear to regulate c-mos expression in mouse oocytes. Reverse transcription-polymerase chain reaction analysis of RNA from injected oocytes showed that this regulation is manifest at the transcriptional level. Expression of c-mos in mouse oocytes thus appears to be directed by a simple promoter consisting only of sequences immediately surrounding the transcription start site, including an initiator element in the untranslated leader.

Positive- and negative-acting promoter sequences regulate cell type-specific expression of the rat synapsin I gene

The phosphoprotein synapsin I is expressed exclusively in neuronal cells. We are interested in elucidating the promoter sequences involved in cell type-specific expression of the synapsin I gene. The PC12 cell line expresses the 3.4 kb and 4.5 kb synapsin I mRNAs and is used to analyze cell type-specific gene expression. A series of deletion fragments of the rat synapsin I gene promoter were fused to the promoterless reporter gene encoding bacterial chloramphenicol acetyltransferase (CAT) for transfection analysis in PC12 cells and in HeLa cells, which do not express the gene. A -349 bp to +110 bp rat synapsin I promoter fragment contains a positive regulator, shown to be 33-times more active in PC12 cells than HeLa cells. Transfection of reporter plasmids containing up to 4.4 kb of rat synapsin I gene promoter sequences exhibit significantly reduced CAT activity in PC12 cells. The reduction in CAT expression was attributed to a negative regulator located between -349 bp and -1341 bp in the rat synapsin I promoter. Our results suggest that both positive and negative-acting sequence elements regulate cell type-specific expression of the rat synapsin I gene.

Expression of the rat growth hormone-releasing hormone gene in placenta is directed by an alternative promoter

Growth hormone-releasing hormone (GHRH) is a hypothalamic peptide that plays a critical role in controlling the synthesis and secretion of growth hormone by the anterior pituitary. GHRH has also been detected in other nonneural extrahypothalamic tissues, including rat placenta, although its role in the hormonal control of pregnancy and/or fetal development has not yet been defined. Here we present the isolation and characterization of cDNA clones corresponding to rat placental GHRH. The placental GHRH mRNA codes for a pre-pro-GHRH identical to that found in the hypothalamus, suggesting that the mature placental GHRH is identical to its hypothalamic counterpart. Nevertheless, the placental and the hypothalamic GHRH mRNAs differ in the region corresponding to the untranslated exon 1 because of the use of an alternative promoter in the placenta located 10 kilobases upstream from the hypothalamic promoter. A combined mechanism involving the use of tissue-specific alternative promoters and the differential splicing of exon 1 generates the mature GHRH transcript in placenta and hypothalamus. Multiple transcription initiation sites have been found in the placental GHRH mRNA, which correlates to the lack of a consensus TATA box in the promoter region.

Convergent transcription initiates from oppositely oriented promoters within the 5' end regions of Drosophila melanogaster F elements

Drosophila melanogaster F elements are mobile, oligo(A)-terminated DNA sequences that likely propagate by the retrotranscription of RNA intermediates. Plasmids bearing DNA segments from the left-hand region of a full-length F element fused to the CAT gene were used as templates for transient expression assays in Drosophila Schneider II cultured cells. Protein and RNA analyses led to the identification of two promoters, Fin and Fout, that transcribe in opposite orientations. The Fin promoter drives the synthesis of transcripts that initiate around residue +6 and are directed toward the element. Fin, that probably controls the formation of F transposition RNA intermediates and gene products, is internal to the transcribed region. Sequences important for accumulation of Fin transcripts are included within the +1 to +30 interval; an additional regulatory element may coincide with a heptamer located downstream of this region also found in the 5' end regions of F-like Drosophila retrotransposons. Analysis of the template activity of 3' deletion derivatives indicates that the level of accumulation of Fin RNA is also dependent upon the presence of sequences located within the +175 to +218 interval. The Fout promoter drives transcription in the opposite orientation with respect to Fin. Fout transcripts initiate at nearby sites within the +92 to +102 interval. Sequences downstream of these multiple RNA start sites are not required for the activity of the Fout promoter. Deletions knocking out the Fin promoter do not impair Fout transcription; conversely, initiation at the Fin promoter still takes place in templates that lack the Fout promoter. At a low level, both promoters are active in cultured cells.

PEA1 and PEA3 enhancer elements are primary components of the polyomavirus late transcription initiator element

The circular polyomavirus genome is transcribed from divergent promoter regions. Early mRNAs are initiated from a transcription complex formed at a TATA motif, the site of binding of transcription factor TFIID. Early transcription is promoted at a distance by the viral enhancer, which includes DNA motifs bound by cellular proteins of the PEA1 and PEA3 families of transcription activators. In contrast, the predominant viral late mRNAs are initiated within the viral enhancer, which lacks a TATA motif, near the PEA1 and PEA3 DNA motifs. Here, we demonstrate that these PEA1 and PEA3 binding sites are primary components of an autonomous transcription initiator element (Inr). They cause transcription of most polyomavirus late mRNAs and can direct the transcription of heterologous reporter genes. Alternative roles of these DNA motifs as activators of early mRNA transcription and as an initiator element for late mRNA transcription help explain how polyomavirus gene expression is regulated during lytic growth and provides a model for cellular transcription during development.

Recombinant 43-kDa USF binds to DNA and activates transcription in a manner indistinguishable from that of natural 43/44-kDa USF

USF is a cellular factor involved in the transcriptional regulation of several cellular and viral promoters. Purified USF from HeLa cells (HeLa USF) consists of 43- and 44-kDa polypeptides which show independent binding to a specific DNA element. A cDNA encoding the 43-kDa species has been previously cloned. We show here that the purified form of bacterially expressed 43-kDa USF (i) exists in solution as a dimer whose formation is greatly favored under reducing conditions, (ii) binds to its cognate DNA sequence in a manner indistinguishable from that of HeLa USF, and (iii) is as efficient as HeLa USF in stimulating transcription from target promoters in a reconstituted cell-free system. Additional data indicate that the 44-kDa component of HeLa USF is immunologically unrelated to the 43-kDa polypeptide but is associated with it in HeLa cell extracts. These results suggest that the 43-kDa component possesses an intrinsic DNA binding and transcriptional activation potential and that the 44-kDa USF component of the natural USF complex may have some regulatory role.

Characterization of a second promoter for the mouse liver/bone/kidney-type alkaline phosphatase gene: cell and tissue specific expression

The second leader exon and the relative promoter of the mouse liver/bone/kidney-type alkaline phosphatase gene were identified and characterized. The transcription initiation site was determined by S1 mapping analysis. The differential expression of the two alternatively spliced transcripts was assessed in cell lines of different origin and in various tissues by polymerase chain reaction and RNase mapping analysis. The first promoter is active in embryo derived cells, whereas the second promoter is silent in basal conditions but it is activated by dibutyryl cAMP in fibroblastic cells. In the whole animal, the transcript driven by the first promoter is found in most tissues albeit at different levels, while the one driven by the second promoter is specifically expressed at high levels only in the heart.

The initiator directs the assembly of a transcription factor IID-dependent transcription complex

Highly purified RNA polymerase II was found to be able to weakly recognize the initiator (Inr) present in the adenovirus IVa2 and major late promoters. The association of RNA polymerase II with the Inr was enhanced by the general transcription factors. The Inr was capable of directing the formation of a DNA-protein complex. Transcription competent complexes on the adenovirus major late and IVa2 promoters appear to be formed by alternative pathways mediated through the Inr and/or "TATA" motif. The presence of both motifs, however, is required for efficient transcription utilizing a discrete start site. Complexes formed at either site required transcription factor TFIID, the TATA binding protein. Consistent with this observation, a TFIID requirement was demonstrated for transcription from a mutant adenovirus major late promoter construct lacking a functional TATA motif.

Complex regulation of transcription from the hepatitis B virus major surface antigen promoter in human hepatoma cell lines

A detailed mutational analysis of the regulatory DNA sequence elements that control expression of the hepatitis B virus major surface antigen gene was performed in the human hepatoma cell lines HepG2.1 and Huh7, using transient transfection assays. Seven regions (A to G) of the major surface antigen promoter located within 200 nucleotides of the RNA initiation site have been identified which influence the level of transcription from this promoter. The three distal regions (A to C), located between -188 and -68, appear to possess a level of redundancy in their ability to influence the transcriptional activity from the major surface antigen promoter. The simultaneous deletion of regions A, B, and C resulted in an approximately fourfold reduction in transcription from the major surface antigen promoter. Region D, located between -67 and -49, is an essential element of the major surface antigen promoter. The three proximal regions (E to G) are located within 45 nucleotides of the major transcription initiation site. Region E prevents the negative influence of region F and can compensate for the effect of mutation of region G on transcription from the major surface antigen promoter. Region G can compensate for the effect of the loss of a functional region E sequence on the transcriptional activity of the major surface antigen promoter only in the absence of a functional region F sequence. These results imply that the level of expression of the major surface antigen gene is controlled by the complex interplay between a minimum of six transcription factors which activate and one transcription factor which represses transcription from this gene.

Redundant elements in the adenovirus type 5 inverted terminal repeat promote bidirectional transcription in vitro and are important for virus growth in vivo

The adenovirus inverted terminal repeat (ITR) contains a number of cis-acting elements that are involved in the initiation of viral DNA replication, as well as multiple binding motifs for the cellular transcription factors SP1 and ATF. In this study, we utilized a Hela cell transcription extract to demonstrate that the adenovirus type 5 ITR promotes bidirectional transcription in vitro. Primer extension analyses demonstrated that the ITR directed transcription at initiation sites both within the terminal repeat and at fixed distances outside of the ITR. The ITR also strongly stimulated transcription at the early region 1A (E1A) initiation site when it was situated immediately upstream of the E1A TATA box region. Deletion and point mutational analyses demonstrated that two distinct cis-acting elements were involved in these ITR-dependent transcriptional activities in vitro. Cellular transcription factors SP1 and ATF were previously shown to bind to these two regions. Analysis of viral mutants in vivo demonstrated that the NFIII/OCT-1 binding site and a conserved ATF motif were important for efficient viral growth. Regulatory elements in the ITR flanking region were found to functionally substitute for these sites.

Further sequence requirements for male germ cell-specific expression under the control of the 14 bp promoter element (beta 2UE1) of the Drosophila beta 2 tubulin gene

We have investigated a 14 bp promoter element (beta 2UE1) that is required for testis-specific expression of the Drosophila beta 2 tubulin gene. To further elucidate the role of the 14 bp element, we fused different promoter constructs to the E. coli lacZ gene and established transgenic strains with the aid of the Drosophila P-element transformation system. Germ line transformation experiments with constructs in which the element in the beta 2 tubulin gene promoter was exchanged for a related sequence from the promoter region of the Drosophila beta 3 tubulin gene led to a dramatic reduction in the expression of the lacZ gene in the testis. Exchanging the 14 bp promoter element for a similar sequence from the distal promoter of the Drosophila alcohol dehydrogenase gene abolished expression. This might indicate that the sequence differences between the beta 2UE1 and the beta 2UE1-related elements reflect functional differences between these elements. Constructs in which the beta 2UE1 was fused to the hsp70 promoter revealed that testis-specific expression of a marker gene is obtained only when the element is located at the correct distance from the transcription initiation site. However, constructs in which the beta 2UE1 was inserted at about the correct position (between -41 and -54 bp) upstream of a truncated beta 3 tubulin gene promoter did not show any expression. By making beta 2-beta 3 gene promoter fusions it was found that both the region surrounding the beta 3 transcription initiation site as well as the first 116 b of beta 3 leader sequences independently reduce testis-specific expression. These findings suggest that the testis-specific expression of the Drosophila beta 2 tubulin gene underlies a unique regulatory mechanism.

Cloning of a human gene encoding the general transcription initiation factor IIB

Transcription factor IIB (TFIIB) has a central role in transcription of class II genes. The purification of the human TFIIB protein and isolation of a complementary DNA encoding TFIIB activity is reported here. The sequence of TFIIB, which seems to be encoded by a single gene, contains a repeated motif, in addition to a motif with similarity to the prokaryotic sigma-factors. The recombinant protein expressed in bacteria substituted for all the functions attributed to the human TFIIB protein.

Analysis of the HSV-1 strain 17 DNA polymerase gene reveals the expression of four different classes of pol transcripts

We have investigated the structure and the expression of transcripts of the HSV-1 strain 17 DNA polymerase gene (pol) by various mapping methods including cDNA cloning. The majority of mature pol transcripts is strictly colinear with the pol gene. But additionally, pol cDNAs show a defined heterogeneity in respect to their 5'-terminal regions and can be divided into four classes with characteristic differences; (i) class 1 represents the major transcript (pol-R1) with initiation at HSV-1 positions 62,605-62,610, (ii) class 2 initiates about 70 bp downstream, (iii) class 3 is generated by splicing the short open reading frame (SORF) to a 5'-truncated part of the long open reading frame (LORF) which results in a partially different coding potential, and (iv) class 4 starts 120 bp upstream of the major initiation site in the central part of the origin of replication (oriL). S1 and Exo VII nuclease and RNase protection assays as well as primer extension analyses confirm the classification regarding the genuine structure of pol mRNAs and the differential usage of transcriptional start sites. Furthermore, the transcript classes can be distinguished from each other by their kinetics of appearance/disappearance in the cytoplasm: The first transcription of the pol gene is indicated by the predominant presence of class 2 and class 4 mRNAs at 2 hr postinfection (h.p.i.), followed by an increase of class 1 transcripts up to 4 h.p.i. and a parallel decrease of class 2 mRNAs. These data suggest that expression of the pol gene is finely regulated already at the transcriptional and/or posttranscriptional level prior to the translation of pol mRNAs.

The pituitary-specific regulatory gene GHF1 contains a minimal cell type-specific promoter centered around its TATA box

GHF-1 is a pituitary-specific transcription factor responsible for activation of the growth hormone (GH) gene. The GHF1 gene is expressed exclusively in cells of the somatotrophic lineage, and its transcription is extinguished in somatic cell hybrids. The minimal sequences required for differential transcription of GHF1 in GH-expressing and -nonexpressing cell lines and somatic cell hybrids were localized to a 15-bp region surrounding and including its TATA box. This 15-bp fragment acts as a cell type-specific promoter element and is recognized by a transcription factor present in GH-expressing cell lines. Hence, in addition to enhancers and upstream promoter elements, the TATA element (TATA box plus surrounding sequences) can be, in certain cases, an important determinant of cell-type-specific transcription.

Analysis of the 5' flanking region of the human beta-glucuronidase gene

We have sequenced 4.2 kb of the 5' flanking region of the human beta-glucuronidase gene, compared this sequence to the 5' upstream sequence reported for the murine gene, determined the transcription start sites of the human gene, and studied expression of human minigene deletion constructs in COS cells. The 200 bp immediately 5' to the translation initiation codon have a high G + C content (72%) and contain no TATA box, two properties commonly associated with "housekeeping genes." The sequence 5' to -200 bp contains seven Alu repetitive elements which account for more than 50% of this flanking sequence. From deletion analysis of minigene constructs, 200 bp of 5' sequence appeared sufficient for maximal expression in transfected COS cells. S1 nuclease protection analysis showed that transcription initiates from a cluster of sites around -30 bp in all tissues examined. In some cases, a low but detectable level of transcription also initiates 126 bp upstream of the ATG. Inspection of the sequence surrounding both start sites revealed some similarity to the recently described "initiator" transcriptional control element (S.T. Smale and D. Baltimore (1989), Cell 57: 103-113). Comparison of the 5'flanking sequence with that available from the murine beta-glucuronidase gene reveals only one 28-bp highly conserved region, which surrounds the -126 start site.

Pituitary pro-opiomelanocortin gene expression requires synergistic interactions of several regulatory elements

The pro-opiomelanocortin (POMC) gene is expressed very early during pituitary development, before expression of the other pituitary hormone genes, growth hormone and prolactin, and before expression of the Pit-1/GHF-1 transcription factor which activates those genes. Thus, analysis of the POMC promoter should provide markers of the early stages of pituitary development at the time when cells are being committed to expression of one or the other pituitary hormone. We have previously localized the rat POMC promoter to a 543-bp 5'-flanking DNA fragment of the gene using transfection and transgenic mice experiments. We have now used mutagenesis and in vitro protein-DNA binding studies to define three domains of the promoter which have distinct and complementary activities. Within these domains which require each other for full activity, at least nine regulatory elements were defined by in vitro footprinting and replacement mutagenesis. Each element appeared equally important for promoter activity, as mutagenesis of any element had similar effect on promoter activity. Most of the elements bound different AtT-20 nuclear proteins in gel mobility shift experiments. Whereas only two elements appeared to be binding sites for the known transcription factors AP-1 and chicken ovalbumin upstream promoter, the seven other elements appeared to bind nuclear proteins with novel properties. Thus, in contrast to the predominant role of Pit-1/GHF-1 in transcription of the growth hormone and prolactin genes, the control of an early pituitary gene, POMC, appears to depend on the synergistic interaction of several regulatory elements which bind different nuclear proteins.

Molecular analysis of a human interferon-inducible gene family

Three functional members of the 1-8 gene family have been isolated on a single human genomic DNA fragment of less than 18 kb. The 1-8U and 1-8D genes are extremely similar; each is contained within a less than 2-kb fragment, has in its 5'flanking region two adjacent 14-base-pair sequences showing high similarity to interferon-stimulable response elements (ISREs) and has two highly related exons. The third gene (9-27) has a similar overall structure, shows substantial similarity to the 1-8s but has only one ISRE which is 3' of two CCAAT boxes not present in the 1-8U and D genes. The cDNA corresponding to the three genes share 120 nucleotides of identical sequence and show greater than 90% identity over 70% of the coding sequence. For the 1-8U and D genes the high similarity extends into the 5' non-coding and flanking regions. The open reading frames encode polypeptides that are likely to be of very similar structure. Antiserum to a conserved peptide detects a polypeptide(s) of about 14 kDa on PAGE which separates into three components on isoelectric focussing. The 9-27 and 1-8U genes are highly interferon-inducible the 1-8D gene is much less so. These differences are mimicked by the activities of the corresponding ISREs placed 5' of a marker gene in expression constructs. They presumably reflect differences in the interaction of the ISREs with the various interferon-inducible and constitutive factors that govern the interferon response.

Pituitary pro-opiomelanocortin gene expression requires synergistic interactions of several regulatory elements

The pro-opiomelanocortin (POMC) gene is expressed very early during pituitary development, before expression of the other pituitary hormone genes, growth hormone and prolactin, and before expression of the Pit-1/GHF-1 transcription factor which activates those genes. Thus, analysis of the POMC promoter should provide markers of the early stages of pituitary development at the time when cells are being committed to expression of one or the other pituitary hormone. We have previously localized the rat POMC promoter to a 543-bp 5'-flanking DNA fragment of the gene using transfection and transgenic mice experiments. We have now used mutagenesis and in vitro protein-DNA binding studies to define three domains of the promoter which have distinct and complementary activities. Within these domains which require each other for full activity, at least nine regulatory elements were defined by in vitro footprinting and replacement mutagenesis. Each element appeared equally important for promoter activity, as mutagenesis of any element had similar effect on promoter activity. Most of the elements bound different AtT-20 nuclear proteins in gel mobility shift experiments. Whereas only two elements appeared to be binding sites for the known transcription factors AP-1 and chicken ovalbumin upstream promoter, the seven other elements appeared to bind nuclear proteins with novel properties. Thus, in contrast to the predominant role of Pit-1/GHF-1 in transcription of the growth hormone and prolactin genes, the control of an early pituitary gene, POMC, appears to depend on the synergistic interaction of several regulatory elements which bind different nuclear proteins.

Cloning and characterization of the mouse cytochrome c oxidase subunit IV gene

cDNA for mouse cytochrome c oxidase subunit IV (COXIV) was isolated by screening mouse liver and kidney cDNA libraries with a bovine COXIV cDNA probe. The 679-nucleotide nearly full length cDNA codes for a 22-amino acid presequence and a 147-amino acid mature protein which show 77 to 95% positional identity with the predicted sequences of human, bovine, and rat subunits. Screening of mouse genomic lambda EMBL3 library using the mouse cDNA probe yielded two overlapping clones. Restriction mapping and sequencing of the clones show that the mouse COXIV mRNA sequences are contained in five exons ranging from 58 to 236 base pairs, and four introns in a 7-kilobase region of the mouse genome. Southern blot analysis of restriction-digested genomic DNA indicates the presence of a single gene for COXIV in the mouse genome. Primer extension analysis using a synthetic 22-mer oligonucleotide, together with the 0.68-kilobase size of the mRNA shown by the Northern blot analysis, indicates that the major transcription start site of the COXIV gene is located 59 nucleotides upstream of the translation start site. The COXIV gene is highly GC rich and lacks TATA and CAAT elements in the immediate upstream region of the transcription start site. The putative promoter region, however, contains a number of GC boxes similar to those involved in the binding of Sp1 transcription factor. The unique features of the gene, as well as its characteristics common to other nuclear genes coding for different mitochondrial proteins, have been discussed.

Analysis of the human type I insulin-like growth factor receptor promoter region

We isolated genomic fragments containing the 5' region of the human type I insulin-like growth factor receptor gene. A unique transcription start site was identified, defining a 1038 bp 5'-untranslated region. No TATA or CCAAT elements were identified in the proximal 480 nucleotides of 5'-flanking region. The region surrounding the transcription start site was similar to a recently described "initiator" sequence. The 5'-flanking and 5'-untranslated regions were highly GC-rich, with numerous potential Sp1 binding sites. A potential AP-2 binding site was identified in the 5'-flanking region and a potential thyroid response element was identified in the 5'-untranslated region. The 5' region of the human gene was very similar to that of the rat gene, with conservation of many of the potential regulatory elements.

Functional analysis and in vivo footprinting implicate the erythroid transcription factor GATA-1 as a positive regulator of its own promoter

Transcription of erythroid-expressed genes and normal erythroid development in vivo are dependent on a regulatory protein (GATA-1) that recognizes a consensus GATA motif. GATA-1 expression is itself restricted to erythroid progenitors and to two related hematopoietic lineages, megakaryocytes and mast cells. During cellular maturation the levels of GATA-1 RNA and protein increase progressively. In an effort to delineate mechanisms by which this pivotal transcription factor is itself regulated we have characterized the mouse GATA-1 gene and cis-elements within its promoter. We find that the isolated promoter retains cell specificity exhibited by the intact gene. Full promoter activity requires the presence of proximal CACCC box sequences and an upstream, double GATA motif that binds a single GATA-1 molecule in an asymmetric fashion. Using in vivo footprinting of mouse erythroleukemic cells we detect protein binding in vivo to both cis-elements. On the basis of these findings we propose that a positive feedback loop mediated through GATA-1 serves two complementary functions: maintenance of the differentiated state by locking the promoter into an "on" state, and programming the progressive increase in protein content throughout cellular maturation.

In vitro transcription of baculovirus immediate early genes: accurate mRNA initiation by nuclear extracts from both insect and human cells

The production and characterization of nuclear extracts from uninfected Spodoptera frugiperda cells, capable of accurately initiating transcription of baculovirus immediate early genes in vitro, are described. Optimal in vitro transcription was dependent on the presence of a TATA box promoter element and was abolished by alpha-amanitin. Nuclear extracts from the S. frugiperda cells primed with plasmid DNA containing the adenovirus major late promoter produced run-off transcripts of the size predicted for initiation from the adenovirus promoter. In addition, nuclear extracts prepared from a human cell line accurately initiated transcription from the promoter of the baculovirus immediate early gene encoding gp64. Primer extension analysis showed that transcripts derived from the gp64 gene promoter using both the S. frugiperda and human cell nuclear extracts initiated at the same nucleotide as transcripts produced in vivo.

Expression from the murine p53 promoter is mediated by factor binding to a downstream helix-loop-helix recognition motif

Expression of the p53 gene plays an important role in the regulation of cellular proliferation and malignant transformation. Overexpression of mutant forms of p53 is in fact a common feature of many transformed cells. Studies dealing with the transcriptional regulatory regions of the p53 gene indicate that, unlike most promoters transcribed by RNA polymerase II, the p53 promoter contains no TATA-like sequence upstream of the transcription start site. Here we demonstrate that the murine p53 promoter contains a cis-acting element that maps downstream to the transcription initiation site. The integrity of this element is required for high-level expression from the promoter in transformed cells. By DNase I protection and mobility-shift analysis, we show that a nuclear factor binds to this downstream element through the consensus recognition sequence for the helix-loop-helix (HLH)-containing proteins of the myc/MyoD family of transcriptional regulators. We propose that the activity of one or more members of this family of transcription factors is an important determinant in the expression of p53 and that at least one level of p53 overexpression in transformed cells may thus be due to aberrant expression of the relevant factor(s). Furthermore, the possibility that the regulation of expression of p53 occurs, in part, by means of a potential HLH-containing factor provides a possible mechanism for the suppression of proliferation by the MyoD family of transcriptional regulators.

Properties of the promoter region of the T18d (T13c) Tla gene

The T18d (formerly T13c) gene of BALB/c mice belongs to the category of Tla genes which is expressed by both thymocytes and TL+ T-cell leukemias. To elucidate the regulation of T18d, different restriction fragments of the 5' flanking region between -457 and +146 were linked to the chloramphenicol acetyltransferase (CAT) gene and transfected into TL+ and TL- cells. By comparison of transiently expressed CAT activity among cells transfected with different CAT constructs, the results suggest that determination of TL+ vs TL- phenotypes is located within the region -105 to -33, and that an element essential to T18d expression resides within the region -33 to +54. Putative DNA-binding factors characterizing particular cell types and displaying selective affinity for particular T18d restriction fragments were identified by electrophoretic mobility shift assays with nuclear extracts (NEs). Two factors (or complexes) which bound specifically to the T18d fragment -105 to -33 were expressed preferentially in TL+ cells and thus may be involved in determining the tissue-selective expression of T18d. The close proximity of negative and positive cis-acting elements within the promoter region is consistent with regulation of T18d gene expression by a variety of trans-acting factors whose production is attuned to development and differentiation. The data provided may serve as a guide to study the regulation of other categories of Tla genes that are normally silent in thymocytes but may become expressed by leukemia cells.

Human DNA polymerase alpha gene: sequences controlling expression in cycling and serum-stimulated cells

We have investigated the DNA polymerase alpha promoter sequence requirements for the expression of a heterologous gene in actively cycling cells and following serum addition to serum-deprived cells. An 11.4-kb genomic clone that spans the 5' end of this gene and includes 1.62 kb of sequence upstream from the translation start site was isolated. The transcription start site was mapped at 46 +/- 1 nucleotides upstream from the translation start site. The upstream sequence is GC rich and lacks a TATA sequence but has a CCAAT sequence on the opposite strand. Analysis of a set of deletion constructs in transient transfection assays demonstrated that efficient expression of the reporter in cycling cells requires 248 bp of sequence upstream from the cap site. Clustered within these 248 nucleotides are sequences similar to consensus sequences for Sp1-, Ap1-, Ap2-, and E2F-binding sites. The CCAAT sequence and the potential E2F- and Ap1-binding sites are shown to be protected from DNase I digestion by partially purified nuclear proteins. The DNA polymerase alpha promoter can confer upon the reporter an appropriate, late response to serum addition. No single sequence element could be shown to confer serum inducibility. Rather, multiple sequence elements appear to mediate the full serum response.

A muscle-specific intron enhancer required for rescue of indirect flight muscle and jump muscle function regulates Drosophila tropomyosin I gene expression

The control of expression of the Drosophila melanogaster tropomyosin I (TmI) gene has been investigated by P-element transformation and rescue of the flightless and jumpless TmI mutant strain, Ifm(3)3. To localize cis-acting DNA sequences that control TmI gene expression, Ifm(3)3 flies were transformed with P-element plasmids containing various deletions and rearrangements of the TmI gene. The effects of these mutations on TmI gene expression were studied by analyzing both the extent of rescue of the Ifm(3)3 mutant phenotypes and determining TmI RNA levels in the transformed flies by primer extension analysis. The results of our analysis indicate that a region located within intron 1 of the gene is necessary and sufficient for directing muscle-specific TmI expression in the adult fly. This intron region has characteristics of a muscle regulatory enhancer element that can function in conjunction with the heterologous nonmuscle hsp70 promoter to promote rescue of the mutant phenotypes and to direct expression of an hsp70-Escherichia coli lacZ reporter gene in adult muscle. The enhancer can be subdivided further into two domains of activity based on primer extension analysis of TmI mRNA levels and on the rescue of mutant phenotypes. One of the intron domains is required for expression in the indirect flight muscle of the adult. The function of the second domain is unknown, but it could regulate the level of expression or be required for expression in other muscle.

Inactivation of maize transposon Mu suppresses a mutant phenotype by activating an outward-reading promoter near the end of Mu1

We described previously a mutation in maize, hcf106, caused by the insertion of a Mu1 transposon. When the Mu transposon system is in an active phase, hcf106 conditions a nonphotosynthetic, pale green phenotype. However, when the Mu system is inactive (a state correlated with hypermethylation of Mu elements), the plant adopts a normal phenotype despite the continued presence of the transposon within the gene. The molecular mechanisms that mediate this suppression of the mutant phenotype have now been investigated. We show here that the Mu element responsible for the hcf106 lesion lies within sequences encoding the 5'-untranslated leader of the Hcf106 mRNA. When the Mu transposon system is active, this insertion interferes with the accumulation of mRNA from the hcf106 allele. However, when Mu is inactive, mRNA similar in size and abundance to that transcribed from the normal allele accumulates. These transcripts initiate at many sites throughout a 70-base-pair region, within and immediately downstream of the Mu1 insertion. Thus, an unusual promoter spanning the downstream junction between Mu1 and Hcf106 substitutes for the normal Hcf106 promoter but only when Mu is inactive. The pattern of mRNA accumulation in different organs and in response to light suggests that the activity of this promoter is conditional not only upon the phase of Mu activity, but also upon signals that regulate the normal Hcf106 promoter.

Isolation and characterization of a rice gene encoding a basic chitinase

Chitinase, which catalyzes the hydrolysis of the beta-1,4-N-acetyl-D-glucosamine linkages of the fungal cell wall polymer chitin, is involved in inducible defenses of plants. A basic chitinase genomic sequence was isolated from a rice (Oryza sativa L.) genomic library using a bean chitinase gene fragment as a probe. The complete nucleotide sequence of the rice chitinase RCH10 gene was determined, and shown to contain an open reading frame with no introns, encoding a polypeptide of 336 amino acids. This polypeptide consists of a 21 amino acid signal peptide, a hevein domain, and a chitinase catalytic domain. The RCH10 gene has 63% identity at the nucleotide level and 75% identity at the amino acid level with chitinase genes from dicotyledonous plants such as bean, potato, and tobacco. A gene fusion of trpE and the coding region of RCH10 expressed in Escherichia coli gave a product that reacted with antiserum to bean chitinase, confirming the identity of RCH10 as a rice chitinase gene. Primer extension analysis identified two transcription start sites 53 bp and 55 bp upstream from the translation initiation codon. The 5' flanking region contains TATA and CAAT boxes, and the 3' region contains an AATAA polyadenylation signal. Southern blot hybridization indicated that there is a family of chitinase genes in the rice genome. Northern blot analysis showed that the RCH10 chitinase gene is induced in suspension cultured cells by a fungal cell wall elicitor. Rice chitinase transcripts accumulate to a high level in roots, but only low levels are found in stem and leaf tissue.

A muscle-specific intron enhancer required for rescue of indirect flight muscle and jump muscle function regulates Drosophila tropomyosin I gene expression

The control of expression of the Drosophila melanogaster tropomyosin I (TmI) gene has been investigated by P-element transformation and rescue of the flightless and jumpless TmI mutant strain, Ifm(3)3. To localize cis-acting DNA sequences that control TmI gene expression, Ifm(3)3 flies were transformed with P-element plasmids containing various deletions and rearrangements of the TmI gene. The effects of these mutations on TmI gene expression were studied by analyzing both the extent of rescue of the Ifm(3)3 mutant phenotypes and determining TmI RNA levels in the transformed flies by primer extension analysis. The results of our analysis indicate that a region located within intron 1 of the gene is necessary and sufficient for directing muscle-specific TmI expression in the adult fly. This intron region has characteristics of a muscle regulatory enhancer element that can function in conjunction with the heterologous nonmuscle hsp70 promoter to promote rescue of the mutant phenotypes and to direct expression of an hsp70-Escherichia coli lacZ reporter gene in adult muscle. The enhancer can be subdivided further into two domains of activity based on primer extension analysis of TmI mRNA levels and on the rescue of mutant phenotypes. One of the intron domains is required for expression in the indirect flight muscle of the adult. The function of the second domain is unknown, but it could regulate the level of expression or be required for expression in other muscle.

Analysis of the promoter region of the housekeeping gene DmRP140 by sequence comparison of Drosophila melanogaster and Drosophila virilis

To analyze the transcriptional control regions of Drosophila melanogaster household genes, we have characterized the promoter of the gene coding for the second-largest subunit of RNA polymerase II (DmRP140). Analysis of cDNA revealed that the coding region of the protein extends beyond the originally assumed transcription start point (tsp) and deduced translation start codon [Falkenburg et al., J. Mol. Biol. 195 (1987) 929-937] and that the tsp determined previously corresponds to an intron/exon boundary of an additional intron. Upstream of the polII gene we found a transcription unit that is transcribed in the opposite direction. The initiating ATGs of the two genes are only 467 nucleotides (nt) apart. The untranslated region is extremely A + T-rich (88%) but none of the transcription units is preceded by a canonical TATA element. It does not feature any other known nt sequence motifs thought to be necessary for the basic transcriptional machinery; yet, this region functions as a bidirectional promoter: a central 309-bp fragment directs transcription of a reporter gene in transiently transfected Drosophila culture cells in both orientations. The gene coding for the second-largest subunit of RNA polymerase II of Drosophila virilis (DvRP140) was isolated and partially analyzed. The gene is located on the second chromosome at 22F/23A which corresponds to the position determined for D. melanogaster.(ABSTRACT TRUNCATED AT 250 WORDS)

Human DNA polymerase alpha gene: sequences controlling expression in cycling and serum-stimulated cells

We have investigated the DNA polymerase alpha promoter sequence requirements for the expression of a heterologous gene in actively cycling cells and following serum addition to serum-deprived cells. An 11.4-kb genomic clone that spans the 5' end of this gene and includes 1.62 kb of sequence upstream from the translation start site was isolated. The transcription start site was mapped at 46 +/- 1 nucleotides upstream from the translation start site. The upstream sequence is GC rich and lacks a TATA sequence but has a CCAAT sequence on the opposite strand. Analysis of a set of deletion constructs in transient transfection assays demonstrated that efficient expression of the reporter in cycling cells requires 248 bp of sequence upstream from the cap site. Clustered within these 248 nucleotides are sequences similar to consensus sequences for Sp1-, Ap1-, Ap2-, and E2F-binding sites. The CCAAT sequence and the potential E2F- and Ap1-binding sites are shown to be protected from DNase I digestion by partially purified nuclear proteins. The DNA polymerase alpha promoter can confer upon the reporter an appropriate, late response to serum addition. No single sequence element could be shown to confer serum inducibility. Rather, multiple sequence elements appear to mediate the full serum response.

RNA polymerase II elongation complexes paused after the synthesis of 15- or 35-base transcripts have different structures

We have purified specific RNA polymerase II elongation intermediates initiated at the adenovirus type 2 major late promoter and paused either 15 or 35 to 36 bases downstream of the transcription initiation site. Transcription was arrested at these two sites by combining modification of the promoter sequence with limitation of appropriate nucleotide concentrations in the in vitro reaction. The resultant complexes were remarkably stable and could be purified away from free DNA and contaminating protein-DNA complexes, without loss of activity, by the use of sucrose gradient sedimentation and low-ionic-strength polyacrylamide gel electrophoresis. The complexes were characterized by both DNase I and o-phenanthroline-copper ion nuclease protection assays. The DNase I footprints revealed that the structures of the 15- and 35- to 36-nucleotide transcription complexes differed from those previously reported for an adenovirus type 2 major late preinitiation complex and a subsequent intermediate formed upon addition of ATP. Furthermore, the 35- to 36-nucleotide complex protected a significantly smaller portion of the template than the 15-nucleotide species and migrated at a slightly higher rate in polyacrylamide gels. These observations suggest that changes in structural organization may continue to occur in transcription complexes which are already committed to elongation.

Repression of HIV-1 transcription by a cellular protein

A cellular DNA binding protein, LBP-1, sequentially interacts in a concentration-dependent manner with two sites that surround the transcriptional initiation site of the human immunodeficiency virus type 1 (HIV-1) promoter. Although sequences in the downstream site (site I) were found to enhance transcription, purified LBP-1 specifically repressed transcription in vitro by binding to the upstream site (site II), which overlaps the TATA element. The binding of human TATA binding factor (TFIID) to the promoter before LBP-1 blocked repression, suggesting that repression resulted from an inhibition of TFIID binding to the TATA element. Furthermore, mutations that eliminated binding to site II both prevented repression in vitro and increased HIV-1 transcription in stably transformed cells. These findings suggest that a cellular factor regulates HIV-1 transcription in a manner that is characteristic of bacterial repressors and that this factor could be important in HIV-1 latency.

Demonstration of a transcription element in vitro between the capping site and translation initiation site of the mouse myelin basic protein gene

A transcription element was identified, by in vitro analyses, just downstream from the capping site of the mouse myelin basic protein (MBP) gene. Deletion of this element caused a dramatic drop of transcription efficiency in mouse brain, rat liver and HeLa cell nuclear extracts, regardless of the form of DNA being closed circular or linear form. DNase I footprint analysis demonstrated the presence of a ubiquitous trans-acting factor for this region. This element functioned even when it is located in the normal direction downstream from the adenovirus major late promoter. Mutation analysis suggested that an essential part of the downstream element was located between +25 and +45.

Molecular and functional analysis of the virus- and interferon-inducible human MxA promoter

The virus- and interferon-inducible human MxA (IFI-78k) gene is a homologue of the murine influenza resistance gene Mx1. Three overlapping human cosmid clones covering most of the gene including its promoter region were isolated. Sequencing the 5' MxA cDNA derived by RT-PCR (reverse transcriptase-polymerase chain reaction) confirmed the most 5' putative transcriptional start site. The MxA promoter does not contain a TATA or CCAAT box but has three Interferon Stimulated Response Element (ISRE) motifs. Strong induction with type I interferons was demonstrated with a fragment containing only two ISREs in human L132 cells. This induced expression was not adversely affected by 2-aminopurine. However, the promoter showed constitutive expression in transiently or stably transfected murine LM cells.

RNA polymerase II elongation complexes paused after the synthesis of 15- or 35-base transcripts have different structures

We have purified specific RNA polymerase II elongation intermediates initiated at the adenovirus type 2 major late promoter and paused either 15 or 35 to 36 bases downstream of the transcription initiation site. Transcription was arrested at these two sites by combining modification of the promoter sequence with limitation of appropriate nucleotide concentrations in the in vitro reaction. The resultant complexes were remarkably stable and could be purified away from free DNA and contaminating protein-DNA complexes, without loss of activity, by the use of sucrose gradient sedimentation and low-ionic-strength polyacrylamide gel electrophoresis. The complexes were characterized by both DNase I and o-phenanthroline-copper ion nuclease protection assays. The DNase I footprints revealed that the structures of the 15- and 35- to 36-nucleotide transcription complexes differed from those previously reported for an adenovirus type 2 major late preinitiation complex and a subsequent intermediate formed upon addition of ATP. Furthermore, the 35- to 36-nucleotide complex protected a significantly smaller portion of the template than the 15-nucleotide species and migrated at a slightly higher rate in polyacrylamide gels. These observations suggest that changes in structural organization may continue to occur in transcription complexes which are already committed to elongation.