Structure of the gene for mouse thymidylate synthase. Locations of introns and multiple transcriptional start sites

Cloning and characterization of the human lactoferrin receptor gene promoter

Lactoferrin (Lf) is a major protein in human milk. Multiple biological functions of Lf are postulated to be mediated by a Lf receptor (LfR). The Lf receptor (LfR) plays an important role in absorption of Lf and Lf-bound iron by intestinal epithelial cells. Here, we cloned and characterized the promoter from a ~ 3.1 kb 5'-flanking region of the human LfR gene. Neither a TATA box nor a CCAAT box is found at the typical positions. The transcription start site was identified as 298 bp upstream of the translation start codon (+ 1) by 5' RLM-RACE. A series of deletions of 5'-flanking sequences of the human LfR gene were cloned into a promoter-less pGL3 luciferase reporter and transiently transfected into an intestinal enterocyte model (Caco-2 cells). A fragment of - 299/+ 63 elicited the maximal promoter activity in transfected Caco-2 cells, suggesting that functional transcription factor binding sites appear in the region of - 299/+ 63. Bioinformatics analysis indicates that the - 299/+ 63 fragment contains two putative Sp1 binding sites. The promoter activity was significantly decreased when the Sp1 binding sites were mutated by site-directed mutagenesis. Additionally, the promoter activity was dramatically inhibited by treating cells with an Sp1 inhibitor. Binding of Sp1 to the promoter was confirmed by EMSA. Moreover, after Sp1 expression was significantly suppressed by RNA interference, LfR was significantly decreased at both RNA and protein levels. In conclusion, the LfR gene promoter contains downstream core promoter elements, and the Sp1 binding sites play critical roles in transcriptional regulation of the LfR gene.

Intestinal epithelial CD98: an oligomeric and multifunctional protein

The intestinal epithelial cell-surface molecule, CD98 is a type II membrane glycoprotein. Molecular orientation studies have demonstrated that the C-terminal tail of human CD98 (hCD98), which contains a PDZ-binding domain, is extracellular. In intestinal epithelial cells, CD98 is covalently linked to an amino-acid transporter with which it forms a heterodimer. This heterodimer associates with beta(1)-integrin and intercellular adhesion molecular 1 (ICAM-1) to form a macromolecular complex in the basolateral membranes of polarized intestinal epithelial cells. This review focuses on the multifunctional roles of CD98, including involvement in extracellular signaling, adhesion/polarity, and amino-acid transporter expression in intestinal epithelia. A role for CD98 in intestinal inflammation, such as Intestinal Bowel Disease (IBD), is also proposed.

Characterization of the human intestinal CD98 promoter and its regulation by interferon-gamma

Growing evidence that epithelial CD98 plays an important role in intestinal inflammation focused our interest to investigate the transcriptional regulation of CD98. Our mouse-based in vivo and in vitro experiments revealed that epithelial colonic CD98 mRNA expression was transcriptionally increased in intestinal inflammation. We then isolated and characterized a 5'-flanking fragment containing the promoter region required for CD98 gene transcription. Primer extension and rapid amplification of 5'-cDNA ends were used to map a transcriptional initiation site 129 bp upstream from the translational start codon (ATG). Direct sequencing of the 5'-flanking region revealed the presence of four GC-rich stimulating protein (Sp)1 binding domains, one NF-kappaB binding domain, and no TATA box. Binding of Sp1 [Sp1(-874), SP1(-386), Sp1(-187), and Sp1(-177)] and NF-kappaB [NF-kappaB(-213)] to the promoter was confirmed by EMSA and supershift assays. Furthermore, chromatin immunoprecipitation experiments showed the in vivo DNA-Sp1 and DNA-NF-kappaB interactions under basal and IFN-gamma-stimulated conditions. Reporter genes driven by serially truncated and site-mutated CD98 promoters were used to examine basal and IFN-gamma-responsive transcription in transiently transfected Caco2-BBE cells. Our results revealed that Sp1(-187), Sp1(-177), and the NF-kappaB binding site were essential for basal and IFN-gamma-stimulated CD98 promoter activities, whereas Sp1(-874) and Sp1(-386) were not. The results from additional site-mutated CD98 promoters suggested that Sp1(-187), Sp1(-177), and the NF-kappaB site may cooperate in mediating basal and IFN-gamma-stimulated CD98 promoter activities. Finally, we demonstrated that a reduction of Sp1 or NF-kappaB expression reduced CD98 protein expression in unstimulated and IFN-gamma-stimulated Caco2-BBE cells. Collectively, these findings indicate that the Sp1 and NF-kappaB transcription factors are likely to play a significant role in IFN-gamma-mediated transcriptional regulation of CD98 in the intestinal epithelium, providing new insights into the regulation of CD98 expression in intestinal inflammation.

Evolution of the tandem repeats in thymidylate synthase enhancer region (TSER) in primates

The upstream regulatory region of the human thymidylate synthase gene (thymidylate synthase enhancer region, TSER) is length polymorphic, attributable to variable numbers of tandemly repeated copies of a 28-bp fragment. It has been found that TSER length polymorphism is correlated to malignancy risk. To further our understanding of the origin and evolution of TSER, this region was investigated among different primates, including hominoids, two subfamilies of the Old World monkeys (OWMs): colobines and cercopithecines, and two species of the New World monkeys (NWMs). In addition to humans, our results show that length polymorphism in TSER is also present in some primate populations, although it appears that this region is length monomorphic in many other primates. We identified three unique repeat motifs in TSER and defined them as R1, R2, and R3, respectively, starting from the 3' end. The same repeat motifs from different species are more similar to each other than different repeat motifs within same species are. Such a paraphyletic pattern suggests that divergence of the three repeat motifs predated divergence of the OWMs/hominoids and the NWMs. The most recent common ancestor (MRCA) of hominoids and the OWMs probably possessed triple repeats but now double and triple repeats are two dominant types in hominoids and the OWMs. In addition, our results show that each of the three repeat motifs may be lost independently. We have also found clues that recombination was involved in formation of tandem repeat polymorphism in TSER.

Initiation of transcription of the MUC3A human intestinal mucin from a TATA-less promoter and comparison with the MUC3B amino terminus

Human intestinal mucin genes MUC3A and MUC3B are members of a membrane mucin gene family residing at chromosome 7q22. In this paper, we utilized genomic and cDNA cloning to elucidate the sequence of the 5'-region of the MUC3A gene including the gene promoter and the amino terminus coding sequence. Following its 21-residue signal peptide, the amino terminus of the mucin consists of a 233-residue Thr-, Ser-, and Pro-rich nonrepetitive sequence that is contiguous with its hypervariable domain of 375-residue repeats. RNase protection analysis and 5'-GeneRacer PCR indicated that MUC3A gene transcripts initiate from multiple start sites along a region spanning approximately 180 bases. The 5'-flanking region of the gene had promoter activity when fused to a luciferase reporter gene in all of the tested cell lines. This region contained binding sites for several transcription factors, including those implicated in the regulation of intestinal genes, but lacked a cognate TATA box. These features of the gene promoter may enable the gene to be expressed at variable levels in several cell types with different repertoires of transcription factors. We also utilized 5'-GeneRacer PCR to determine the sequence of the 5'-terminus of the MUC3B message. The amino termini of the MUC3A and MUC3B mucins are 91% conserved at the amino acid level. Thus, MUC3A and MUC3B have highly conserved amino and carboxyl termini, suggesting a recent duplication of the entire ancestral gene. It remains to be determined whether other members of the 7q22 membrane mucin gene family have amino-terminal domains similar to MUC3A and MUC3B.

Genomic structure and transcriptional regulation of human Galbeta1,3GalNAc alpha2,3-sialyltransferase (hST3Gal I) gene

Previous studies have shown that hST3Gal I mRNA is overexpressed in colorectal cancer tissues and primary breast carcinoma compared with nonmalignant or benign tissue, suggesting that the transcriptional regulation of hST3Gal I gene is altered during malignant transformation. We report transcriptional regulation of the hST3Gal I gene in colon adenocarcinoma and leukemia cell lines. To determine the genomic structure of the 5'-untranslated region, we cloned and identified the 5'-untranslated region of hST3Gal I from a human genome library. The 5'-untranslated region was found to be divided into three exons, namely, exons Y, X, and C1. The transcription initiation sites map at -1035 bp from the translation initiation site. Our results indicate that the transcriptional regulation of hST3Gal I depends on the pI promoter that exists 5'-upstream of exon Y in these cell lines. The results of luciferase assay suggest that the nt -304 to -145 region is important for transcriptional activity of hST3Gal I gene in both cell lines. The nt -304 to -145 region contains two sequences similar to the Sp1 recognition elements (GC-box) and one USF binding site. The results of site-directed mutagenesis indicated that the Sp1 binding sites and USF binding site of the pI promoter are involved in the transcription of hST3Gal I mRNA. However, the triple mutant of these sites still exhibits about 50% transcriptional activity, suggesting that there are other transcription factors involved in the transcription of hST3Gal I mRNA. These results suggest that these factors may play a critical role in the up-regulation of the hST3Gal I gene during malignant transformation.

Transcriptional control elements of the rat thymidylate synthase promoter: evolutionary conservation of regulatory features

The sequence elements that are important for the transcription and regulation of the rat thymidylate synthase (TS) gene were analyzed. The rat TS promoter lacks a TATA box and directs transcriptional initiation at multiple sites between 60 and 20 nt upstream of the AUG translational start codon. Promoter deletion analyses showed that the region between -100 and -42 nt relative to the AUG codon was both necessary and sufficient for high level promoter activity and was designated the essential promoter region. The essential region also had bidirectional promoter activity. Site-directed mutagenesis revealed that four elements were especially important for promoter activity. These include Ets motifs at -85 and -50, an Sp1 motif at -80, and an LSF motif that overlapped the upstream Ets and Sp1 motifs. Inactivation of E2F motifs that are upstream and downstream of the essential promoter region had no measurable effect on promoter activity in transient transfection assays. The rat TS promoter region directed S-phase-specific expression of a stably transfected minigene if a spliceable intron was included in the transcribed region. When the intron was deleted or the E2F motifs were inactivated, expression of the minigene changed very little during the G1 to S transition.

Transcriptional regulation of human beta-galactoside alpha2, 6-sialyltransferase (hST6Gal I) gene during differentiation of the HL-60 cell line

We have previously shown that the expression of beta-galactoside alpha2,6-sialyltransferase (hST6Gal I) mRNA decreases during HL-60 differentiation induced with dimethyl sulfoxide (DMSO) and that transcriptional regulation depends on the P3 promoter that exists 5'-upstream of exon Y (A. Taniguchi et al., FEBS Lett.,441, 191-194, 1998). The regulation of hST6Gal I may be important for the expression of sialyl-Le(x)in HL-60 cells. In the present report, we studied the transcriptional regulation of hST6Gal I gene during DMSO-induced differentiation of HL-60 cells. To elucidate the molecular basis of hST6Gal I gene expression, the genomic region containing the P3 promoter of hST6Gal I was isolated and functionally characterized. Using a luciferase assay, we identified a functional DNA portion that confers an enhancer, located at nucleotide number (nt) -317 to -174 within the P3 promoter of hST6Gal I genomic DNA. This element contains two sequences similar to Sp1 (GC-box) and one sequence similar to Oct-1 recognition motifs (octamer sequence). Site-directed mutagenesis of Sp1 and Oct-1 sites showed that two Sp1 motifs and one Oct-1 motif are essential for transcriptional activity in HL-60 cells. Enhancer activity is suppressed during HL-60 cell differentiation induced with DMSO. These results suggest that GC-box and octamer sequence may play a critical role in the transcriptional regulation of the hST6Gal I gene during HL-60 cell differentiation.

A sequence based computational identification of a Drosophila developmentally regulated TATA-less RNA polymerase II promoter and its experimental validation

Many RNA polymerase II promoters lack the characteristic TATA box sequence located -25/-30 nucleotides upstream from the transcription start. In Drosophila, half of the promoters identified so far are TATA-deficient. The yemanuclein-alpha gene whose promoter activity is restricted to oogenesis, falls in this class. A number of upstream and downstream promoter elements have been identified for some TATA-less promoters. The yem-alpha promoter contains none of the consensus elements identified so far. Our work was based on the assumption that the physical parameters of the DNA could be used to predict the location of the yem-alpha promoter. A sequence based computational analysis allowed us to determine the characteristic changes of DNA curvature and helix stability in the presumptive regulatory region. Our experimental data were in good agreement with the computational analysis. We have started to investigate the general value of this approach by analyzing other promoters.

Analysis of transcripts derived from sequences upstream of the bidirectional mouse thymidylate synthase promoter

The promoter of the mouse thymidylate synthase (TS) gene lacks a TATAA box and an initiator element and is capable of directing transcriptional initiation with approximately equal strength and over broad initiation windows in both directions. The goal of the present study was to determine if the TS promoter directs the transcription of a second gene that is upstream of the TS gene by characterizing the transcripts that correspond to the upstream sequences. RNA blot analyses revealed the presence of 1.4 and 5 kb cytoplasmic, polyadenylated transcripts that include sequences upstream of the TS promoter. The transcripts were much more abundant in a cell line in which the TS gene is amplified. S1 nuclease protection assays showed that the transcripts have multiple 5' termini. An exon trap approach identified a potential splice donor site that might correspond to the 3' end of the first exon of the upstream gene. A cDNA library was probed with a sequence from the putative first exon, and six different cDNA clones were isolated. However, analysis of the sequences of the cDNAs revealed that the upstream transcripts were not spliced at the potential 3' donor site but instead extended into a repetitive LINE (long interspersed nuclear element) sequence that begins 0.3 kb upstream of the TS promoter. RNase protection assays confirmed that the in vivo transcripts extend into the LINE element. Therefore it appears that the upstream transcripts are unlikely to correspond to a functional mRNA molecule.

Inhibition of mouse thymidylate synthase promoter activity by the wild-type p53 tumor suppressor protein

The p53 tumor suppressor protein is an important negative regulator of the G1 to S transition in mammalian cells. We have investigated the effect of p53 on the expression of the mouse thymidylate synthase (TS) gene, which normally increases as cells enter S phase. A luciferase indicator gene that was driven by the wild-type or various modified forms of the TATA-less mouse TS promoter was transiently cotransfected with a p53 expression plasmid into TS-deficient hamster V79 cells and the level of luciferase activity was determined. We found that wild-type p53 inhibited TS promoter activity by greater than 95% but had a strong stimulatory effect on an artificial promoter that contained multiple p53-binding sites. In contrast, an expression plasmid that encodes a mutant form of p53 or a wild-type retinoblastoma tumor suppressor protein had little effect on TS promoter activity. Deletion of sequences upstream or downstream of the TS essential promoter region, or inactivation of each of the known elements within the essential promoter region, had no effect on the ability of wild-type p53 to inhibit TS promoter activity. Our observations indicate that the inhibition of TS promoter activity by p53 is not due to the presence of a specific p53 negative response element in the TS promoter. Rather, it appears that p53 inhibits the TS promoter by sequestering ("squelching") one or more general transcription factors.

Identification of functional elements in the promoter region of the human gene for thymidylate synthase and nuclear factors that regulate the expression of the gene

To identify the essential motifs of the promoter of the human gene for thymidylate synthase (TS), we constructed a set of deletion mutants from the 5'-terminal region of the human TS gene. From the results of assays of the expression of chloramphenicol acetyltransferase (CAT), we identified two functional elements with positive effects on the promoter activity: a CACCC box (CCACACCC) and an Sp1-binding motif (GAGGCGGA) that was homologous to the Sp1-binding site in the mouse TS gene. In addition, negative regulatory sequences were identified between the two positive elements and in the region upstream of the CACCC box. The results of gel mobility shift analyses suggested that Sp1 binds to the Sp1-binding motif of the human TS gene promoter and that multiple nuclear factors that are related to Sp1 bind to the CACCC box. Furthermore, the binding of Sp1 to mutated Sp1-binding motifs in the promoter region of the human TS gene was correlated with the promoter activity, as measured by the CAT assay. Therefore, the Sp1 motif seems to be a major contributor to the basic promoter activity of the human TS gene, although multiple positive and negative regulatory elements are involved in the regulated expression of this gene.

Isolation and expression of rat thymidylate synthase cDNA: phylogenetic comparison with human and mouse thymidylate synthases

Two cDNA clones representing rat hepatoma thymidylate synthase (rTS) were isolated from a lambda ZAP II cDNA library using as a probe a fragment of the human TS cDNA. The two were identical except that one was missing 50 bp and the other 23 bp corresponding to the 5' coding region of the protein. The missing region was obtained by screening a rat genomic library. The open reading frame of rTS cDNA encoded 921 bp encompassing a protein of 307 amino acids with a calculated molecular mass of 35,015 Da. Rat hepatoma TS appears identical to normal rat thymus TS and the two sequences differ from mouse TS in the same eight amino acid residues. Six of these differences are in the first 21 amino acids from the amino-end. The human enzyme differed from rat and mouse TS at 17 residues where the latter two were identical, with most changes being conservative in nature. The three species differed completely at only four sites. Because the mouse TS shares four amino acids with human TS at sites which differ from rTS and a comparable situation does not exist between rTS and human TS, it is suggested that mouse TS is closer to human TS phylogenetically than rTS. The polymerase chain reaction was used to subclone the protein coding region of rTS into a high expression vector, which expressed rTS in Escherichia coli to the extent of 10 to 20% of its cellular protein. Although the amino-end of the amplified TS was unblocked, that isolated from a FUdR-resistant rat hepatoma cell line contained mostly N-acetylmethionine on its N-terminal end, a finding that may have significant regulatory consequences, which are discussed. The TS level in the resistant cell line was 60 to 70-fold higher than normal which was found to be associated with both multiple gene copies and an expanded TS mRNA pool.

In vitro transcription of the TATAA-less mouse thymidylate synthase promoter: multiple transcription start points and evidence for bidirectionality

The mouse thymidylate synthase (TS) promoter (pTS) lacks a TATAA box and an initiator element, and has multiple transcription start points (tsp) located across a 90-bp region. We have developed an in vitro transcription system for pTS using circular templates and nuclear extracts from HeLa cells or mouse 3T6 fibroblasts. The amount of RNA synthesized and the locations of the tsp were determined by S1 nuclease protection assays. The transcription system reproduced the complex pattern of in vivo tsp, except that the downstream tsp were used preferentially. The reaction temperature, concentrations of DNA template and MgCl2, and incubation time were optimized. The pTS core region contains binding sites for the Sp1 and Ets transcription factors. Inactivation of the Sp1-binding element led to a twofold reduction in transcription and a preferential use of upstream tsp. Inactivation of the Ets-binding element, which reduced promoter activity tenfold in vivo, had only a minor effect in vitro. Addition of a strong initiator element introduced a new tsp, but did not eliminate the complex tsp pattern. To determine if pTS had bidirectional promoter activity, the promoter was inverted and analyzed for transcriptional activity. The inverted promoter was found to initiate transcription at multiple tsp and had approximately the same strength as the normal pTS.

Characterization of the murine thymidine kinase-encoding gene and analysis of transcription start point heterogeneity

We have determined the molecular organization and transcription start points (tsp) for the murine gene (TK) encoding thymidine kinase. The exon/intron structure and sequences present at the splice junctions of the mammalian TK genes have been highly conserved; however, the promoter sequences of these genes have diverged widely. Both the human and Chinese hamster TK promoter regions contain CCAAT and TATA consensus motifs, whereas the mouse promoter has neither element. This difference between species is reflected in that, unlike the hamster and human TK genes, transcription initiates from numerous specific tsp within a 100-bp region in the mouse TK gene. The complex pattern of tsp seen in the endogenous gene was not maintained in transfected cell lines containing TK promoter::beta-globin (HBB) fusions. Transcription from the murine TK:HBB fusion genes initiated from a small number of tsp that were clustered downstream from the ATG in hybrids containing TK coding sequences, and in the HBB 5' UTR in hybrids that did not. Few or no specific tsp were detected from the upstream sites used in the endogenous mouse TK gene.

Analysis of the 5' flanking region of the rat proliferating cell nuclear antigen (PCNA) gene

The proliferating cell nuclear antigen (PCNA), highly conserved among eukaryotes, is an auxiliary factor for DNA polymerase delta. In this report we sequenced 1560 nucleotides (nt) of the 5' flanking region of the rat PCNA gene and located the transcription initiation site. The sequence contains 1435 nt upstream of the cap site and promotes transcription of a linked heterologous reporter gene in rat, mouse and human cells. Transient expression assays using a series of 5' deletion mutants revealed that 240 nt of the upstream sequence are sufficient for full promoter activity. Three GC boxes and several other binding sites of transcription factors were observed, but neither a TATA nor a CCAAT sequence was found in this region. The results also suggested the existence of a negative regulatory element(s) between -968 and -691. Cotransfection with early region 1 (E1) genes of human adenoviruses activated the expression of the reporter gene, suggesting that an E1-responsive element is located at the proximal promoter region within 81 nt upstream of the transcription initiation site.

A human putative lymphocyte G0/G1 switch gene containing a CpG-rich island encodes a small basic protein with the potential to be phosphorylated

Genes actively involved in the G0/G1 switch (G0S genes) may be differentially expressed during the lectin-induced switch of lymphocytes from the G0 to the G1 phases of the cell cycle. This paper presents studies of G0S2, a member of a set of putative G0S genes, for which cDNAs were cloned and selected on the basis of differential cDNA hybridization. G0S2 mRNA increases transiently within 1-2 hr of the addition of lectin or cycloheximide to cultured blood mononuclear cells. Comparison of a nearly full-length cDNA sequence with the corresponding genomic sequence reveals one small intron and an open reading frame in the second exon. The derived 103-amino-acid basic protein has two potential alpha-helical domains separated by a hydrophobic region with the potential to generate turns and assume a beta-sheet conformation. Consistent with involvement in the G0/G1 switch, the protein contains potential sites for phosphorylation by protein kinase C and casein kinase II. The gene contains a CpG-rich island suggesting expression in the germ line. An upstream segment contains tandem dinucleotide repeats (CT)19/(CA)16. There is a suitably located TATA box, but potential sites for CCAAT-box binding factors are far upstream, embedded in a 42-nucleotide repeat element. Potential sites for transcription factors AP1, AP2, and AP3 are consistent with rapid transcriptional activation in response to inducing agents.

Identification of a major regulatory sequence in the latency associated transcript (LAT) promoter of herpes simplex virus type 1 (HSV-1)

The latency associated transcript (LAT) gene is the only viral genomic region that is abundantly transcribed during herpes simplex virus type 1 (HSV-1) neuronal latency. As such, it may play an important role in HSV-1 latency and/or reactivation. The regulation of the LAT gene is complex and appears to include a combination of positive and negative functional elements in and near the LAT promoter. In this study, transient CAT assays were used to map the minimal promoter necessary for constitutive activity in neuronal and nonneuronal cells to between nucleotide positions -161 and -2 (relative to the start of LAT transcription). The region from -283 to -161 was able to slightly increase promoter activity of the minimal promoter and appeared to have a larger effect in neuronal derived cells. Gel-shift experiments using nuclear extracts from neuronal and nonneuronal derived cells detected a major factor that bound specifically to the -161 to -2 probe. We designated this factor LAT promoter binding factor (LPBF). Two additional minor factors also bound specifically to the minimal promoter. DNase I footprint analysis and gel-shift competition experiments demonstrated that LPBF bound to a region that includes the palindromic sequence CCACGTGG located at nucleotides -72 to -65. Deletion of this palindrome resulted in a loss of binding of LPBF from the minimal promoter region and an 8- to 30-fold reduction in promoter activity in both neuronal and nonneuronal cells. Thus, LPBF appears to play a major role in LAT promoter regulation.

Isolation of the functional human excision repair gene ERCC5 by intercosmid recombination

The complete human nucleotide exicision repair gene ERCC5 was isolated as a functional gene on overlapping cosmids. ERCC5 corrects the excision repair deficiency of Chinese hamster ovary cell line UV135, of complementation group 5. Cosmids that contained human sequences were obtained from a UV-resistant cell line derived from UV135 cells transformed with human genomic DNA. Individually, none of the cosmids complemented the UV135 repair defect; cosmid groups were formed to represent putative human genomic regions, and specific pairs of cosmids that effectively transformed UV135 cells to UV resistance were identified. Analysis of transformants derived from the active cosmid pairs showed that the functional 32-kbp ERCC5 gene was reconstructed by homologous intercosmid recombination. The cloned human sequences exhibited 100% concordance with the locus designated genetically as ERCC5 located on human chromosome 13q. Cosmid-transformed UV135 host cells repaired cytotoxic damage to levels about 70% of normal and repaired UV-irradiated shuttle vector DNA to levels about 82% of normal.

The mammalian upstream element factor recognizes two sites in the adenovirus type 2 IVa2-major late promoter intergenic region and stimulates both promoters

The adenovirus type 2 major late upstream element factor (UEF) recognizes two similar elements that lie between the major late promoter (MLP) and IVa2 promoter cap sites (the previously characterized MLP-UE from nucleotides -49 to -67 and the IVa2-UE from nucleotides -98 to -122). DNase I footprinting and gel retention assays showed that the UEF has a lower affinity for the IVa2-UE than for the MLP-UE. In vitro transcription experiments demonstrated first that the IVa2 promoter, which lacks a consensus TATA box, may work, as does the MLP, in the absence of its proximal upstream element and second that the IVa2-UE stimulated IVa2 transcription two- to threefold, as MLP-UE did for the MLP. In addition, we demonstrated that the more distal upstream element has a weak stimulatory effect on transcription of both promoters.

Thymidylate synthetase gene as a quantitative mutation marker in Chinese hamster cells

A quantitative mutation marker for cultured mammalian cells is presented which uses a selective medium containing folinic acid, aminopterin and thymidine (the 'FAT' medium) to select for mutants deficient in thymidylate synthetase (TS) activity. Optimization of FAT medium was carried out using Chinese hamster V79 cell lines having 3 levels of TS activity. By manipulating the concentration of folinic acid in FAT medium, TS-deficient mutants can be readily selected. TS mutation is inducible in a dose-dependent manner by either ethyl methanesulfonate or ultraviolet light irradiation. Expression time for TS mutation was also determined using two concentrations of ethyl methanesulfonate and found to be very short, being 1 or 2 days. This newly characterized TS mutation marker should be useful in the study of both spontaneous and induced mutagenesis.

A mouse thymidylate synthase pseudogene derived from an aberrantly processed RNA molecule

A DNA fragment containing a mouse-thymidylate-synthase(TS) processed pseudogene was cloned and analyzed. Comparison with the sequences of the mouse TS-encoding gene (ts) and cDNA revealed that the pseudogene started at one of the normal 5' termini of TS mRNA, ended with a poly(A) tail, and was flanked by 16-nucleotide (nt) direct repeats. The region corresponding to the open reading frame was 97.3% identical to that of the cDNA. Two unusual features were observed. First, the poly(A) tail of the pseudogene was located 2 kb downstream from the normal location. Second, the final 10 nt of intron 5 were retained in the 'coding region' of the pseudogene. Therefore, it appears that the pseudogene was derived from a nonfunctional TS 'mRNA' that was aberrantly spliced and polyadenylated. Analysis of the sequence of intron 5 of the ts gene revealed the presence of an alternative 3' splice site 10 nt upstream from the normal splice site. S1-nuclease protection assays showed that about 10% of TS mRNA isolated from mouse cells was spliced at the alternative site.

The rat clofibrate-inducible CYP4A gene subfamily. I. Complete intron and exon sequence of the CYP4A1 and CYP4A2 genes, unique exon organization, and identification of a conserved 19-bp upstream element

The P450 CYP4A1 and CYP4A2 genes were isolated from a rat genomic library constructed in the vector lambda EMBL3 and their complete sequences were determined. The CYP4A1 and CYP4A2 genes spanned 14,144 and 10,576 bp and contained 13 and 12 exons, respectively. The CYP4A1 gene contained an additional intron that splits the exon corresponding to exon 12 of the CYP4A2 gene, resulting in a noncoding 13th exon in CYP4A1. The exon numbers of these genes were distinct among known P450 genes, and yet several intron-exon junctions along the P450 amino acid coding region were conserved with P450 genes in the CYP2, CYP11, and CYP21 gene families. On the basis of these data, the number of exons in the putative ancestral P450 gene was estimated. The evolutionary implications of this finding are discussed. No consensus TATA sequence was found upstream of either gene's transcription start site. Comparison of the CYP4A1 and CYP4A2 promoters with other genes that lack TATA boxes did not reveal any strong consensus sequence in their immediate upstream regions. However, a conserved 19-bp sequence was located at the positions of 42 and 48 bp upstream from the CYP4A1 and CYP4A2 genes' start sites, respectively. The CYP4A2 gene also contained two 378-bp direct repeats upstream from the start site; these repeats are derived from portions of the long interspersed middle repetitive element present in high copy numbers in the rat genome.

Regulation of thymidylate synthase gene expression in mouse fibroblasts synchronized by mitotic selection

Previous studies have shown that thymidylate synthase gene expression is regulated over a wide range in response to growth stimulation in cultured mouse fibroblasts. In the present study we show that the gene is also regulated during the cell cycle in continuously growing cells. Our analyses were conducted with a fluorodeoxyuridine-resistant mouse 3T6 cell line that overproduces thymidylate synthase and its mRNA by a factor of 50 due to gene amplification. Cells were synchronized by mitotic selection. RNA blot analyses showed that the amount of thymidylate synthase mRNA increased 5- to 10-fold as cells progressed from G1 through the middle of S phase. S1 nuclease protection assays showed that the pattern of 5' termini of thymidylate synthase mRNA was the same in G1 and S phase. Despite the large increase in thymidylate synthase mRNA content, the level of the enzyme increased only by a factor of 2 as cells progressed from G1 to mid S phase. This apparent discrepancy can be explained by the fact that the enzyme is highly stable.

Analysis of the multiple 5' and 3' termini of poly(A)+ and poly(A)-deficient thymidylate synthase mRNA in growth-stimulated mouse fibroblasts

Thymidylate synthase (TS) mRNA content increases about 20-fold when growth-stimulated mouse cells progress from the G0/G1 phase into the S phase of the cell cycle. Previous studies, using a cell line in which the TS gene is amplified (LU3-7), indicated that transcriptional initiation as well as polyadenylation of the mRNA occur at several locations in unsynchronized cells. In the present study, we have used S1 nuclease protection assays to analyze the possible significance of the multiple transcriptional initiation and polyadenylation sites. We found that the same pattern of 5' and 3' termini were detected with RNA isolated from the overproducing cells as with RNA isolated from the parental mouse 3T6 cell line, demonstrating that the heterogeneous termini are not a consequence of gene amplification. There was no change in the pattern of 5' or 3' termini with either cell line during the progression from G1 phase through S phase in serum-stimulated cells. Therefore, the increase in TS mRNA content is not the result of differential utilization of the various transcriptional initiation or polyadenylation sites. Analyses of poly(A)- deficient cytoplasmic TS RNA showed that the 5' termini were the same as those found in poly(A) + mRNA. However, the 3' termini were extremely heterogeneous in length. Although some of the poly(A)- deficient RNA extended beyond the normal site of polyadenylation, most of it was shorter than full-length TS mRNA.

Delayed processing/export of messenger RNA under conditions of reduced protein synthesis

The rates of processing and export of a variety of nuclear RNA species into the cytoplasmic compartment were studied by determining the rates of incorporation of tritiated uridine into nuclear and cytoplasmic RNA species. In exponentially growing cells, the rates of nuclear processing/export varied by more than a factor of ten for the six different mRNA species that were examined. Differences in the rates did not appear to be correlated with either the number or the sizes of introns in the genes for the RNA species. When cells were maintained under conditions of reduced protein synthesis (starvation for isoleucine and glutamine or exposure to cycloheximide), the processing rates for each species decreased by a factor of about 3. The decrease was not caused by the inability of hnRNA to associate with proteins, since the nuclear RNP distribution appeared normal in amino acid-starved cells.

A promoter of the rat insulin-like growth factor II gene consists of minimal control elements

We have characterized the cis-control signals in one of the two promoters of the developmentally regulated rat insulin-like growth factor II gene (rIGF-II) by a combination of in-vivo transient expression, in-vitro transcription, footprinting, gel band-shifting and methylation-interference experiments, using a series of deletion mutant templates. Our results indicate that this simple (minimal) promoter (P2) consists of no more than 128 base-pairs, which include an ATA box and four proximal upstream GC boxes binding the general transcription factor Sp1. Three of the latter sites deviate from the known Sp1 consensus recognition sequence. The two types of cis-acting regulatory signals (GC/ATA motif) of the P2 promoter are inter-dependent and sufficient for transcription. A model for the operation of this type of minimal promoter is discussed. S1 nuclease-hypersensitive sites, localized by in-vitro mapping to the region of the P2 Sp1-binding sites, are also present in vivo and correlate with the transcriptional state of chromatin in the rIGF-II locus. We show that recognition sites for Sp1 binding are a subset of sequences that exhibit hypersensitivity to S1.

Atomic structure of thymidylate synthase: target for rational drug design

The atomic structure of thymidylate synthase from Lactobacillus casei was determined at 3 angstrom resolution. The native enzyme is a dimer of identical subunits. The dimer interface is formed by an unusual association between five-stranded beta sheets present in each monomer. Comparison of known sequences with the Lactobacillus casei structure suggests that they all have a common core structure around which loops are inserted or deleted in different sequences. Residues from both subunits contribute to each active site. Two arginine side chains can contribute to binding phosphate on the substrate. The side chains of several conserved amino acids can account for other determinants of substrate binding.