Ets-1 p27: a novel Ets-1 isoform with dominant-negative effects on the transcriptional properties and the subcellular localization of Ets-1 p51

The transcription factor Ets-1 is implicated in various physiological processes and invasive pathologies. We identified a novel variant of ets-1, ets-1Delta(III-VI), resulting from the alternative splicing of exons III to VI. This variant encodes a 27 kDa isoform, named Ets-1 p27. Ets-1 p27 lacks the threonine-38 residue, the Pointed domain and the transactivation domain, all of which are required for the transactivation of Ets-1 target genes. Both inhibitory domains surrounding the DNA-binding domain are conserved, suggesting that Ets-1 p27, like the full-length Ets-1 p51 isoform, is autoinhibited for DNA binding. We showed that Ets-1 p27 binds DNA in the same way as Ets-1 p51 does and that it acts both at a transcriptional and a subcellular localization level, thereby constituting a dual-acting dominant negative of Ets-1 p51. Ets-1 p27 blocks Ets-1 p51-mediated transactivation of target genes and induces the translocation of Ets-1 p51 from the nucleus to the cytoplasm. Furthermore, Ets-1 p27 overexpression represses the tumor properties of MDA-MB-231 mammary carcinoma cells in correlation with the known implication of Ets-1 in various cellular mechanisms. Thus the dual-acting dominant-negative function of Ets-1 p27 gives to the Ets-1 p27/Ets-1 p51 ratio a determining effect on cell fate.

A specific and unusual nuclear localization signal in the DNA binding domain of the Rev-erb orphan receptors

The orphan receptors Rev-erbalpha and Rev-erbbeta are members of the nuclear receptors superfamily and act as transcriptional repressors. Rev-erbalpha is expressed with a robust circadian rhythm and is involved in liver metabolism through repression of the ApoA1 gene, but no role has been yet defined for Rev-erbbeta. To gain better understanding of their function and mode of action, we characterized the proteins encoded by these two genes. Both Rev-erbalpha and Rev-erbbeta proteins were nuclear when transiently transfected in COS-1 cells. The major nuclear location signal (NLS) of Rev-erbalpha is in the amino-terminal region of the protein. Fusion of green fluorescent protein (GFP) to the amino terminus of Rev-erbalpha deletion mutants showed that the NLS is located within a 53 amino acid segment of the DNA binding domain (DBD). The homologous region of Rev-erbbeta fused to GFP also targeted the fusion protein to the nucleus, suggesting that the location of this NLS is conserved among all the Rev-erb group members. Interestingly, members of the phylogenetically closest nuclear orphan receptor group (ROR), which exhibit 58% amino acid identity with Rev-erb in the DBD, do not have their NLS located within the DBD. GFP/DBD. RORalpha or GFP/DBD.RORbeta remained cytoplasmic, in contrast to GFP/DBD. Rev-erb fusion proteins. Alignment of human Rev-erb and ROR DBD amino acid sequences predicted that the two basic residues, K167 and R168, located just upstream from the second zinc finger, could play a critical part in the nuclear localization of Rev-erb proteins. Substitution of these two residues with those found in ROR, in the GFP/DBD. Rev-erb context, resulted in cytoplasmic proteins. In contrast, the reverse mutation of the GFP/DBD. RORalpha towards the Rev-erbalpha residues targeted the fusion protein to the nucleus. Our data demonstrate that Rev-erb proteins contain a functional NLS in the DBD. Its location is unusual within the nuclear receptor superfamily and suggests that Rev-erb orphan receptors control their intracellular localization via a mechanism different from that of other nuclear receptors.

Molecular cloning and characterization of the mouse E2F6 gene

E2F6 is the most recently identified member of the E2F family. In this study, the murine E2F6 gene was cloned and found to consist of eight exons. Analysis of its 5' flanking region revealed two transcription start sites. The proximal promoter region contained no TATA or CAAT box. We also identified a novel E2F6 mRNA containing the alternative exon 2. The E2F6 mRNAs are highly expressed during mouse embryogenesis and are present in all adult tissues examined. Moreover, E2F6 shows a unique expression pattern in synchronized mouse embryonic fibroblasts. E2F6 expression rapidly increases during the G0-G1 transition, reaching its higher level in mid-G1, and remains relatively constant thereafter. These findings suggest that E2F6 may contribute to the regulation of events throughout the cell cycle. Isolation of the murine E2F6 gene is a step toward generation of genetically modified mouse models that will help to understand the functions of E2F6.

Modifications of retinal afferent activity induce changes in astroglial plasticity in the hamster circadian clock

The circadian clock, located in the suprachiasmatic nucleus (SCN) of the hypothalamus in mammals, exhibits astroglial plasticity indicated by GFAP expression over the 24-h period. In this study, we evaluated the role of neuronal retinal input in the observed changes. Modifications of retinal input, either by rearing animals under darkness (DD) or under constant light (LL), or by suppressing afferent input (bilateral enucleation), induced drastic changes in astroglial plasticity. In enucleated animals, a dramatic decrease in GFAP expression was evident in the area of the SCN deprived of retinal projections, whereas persistence of a rhythmic variation was in those areas still exhibiting GFAP expression. By contrast, no changes in astrocytic plasticity were detected in hamsters maintained under LL. These data suggest two fundamental roles for astrocytes within the SCN: (1) to regulate and mediate glutamate released by retinal terminals throughout the neuronal network to facilitate photic signal transmission; (2) to contribute to synchronization between suprachiasmatic neurons.

Antiproliferative and antiapoptotic effects of crel may occur within the same cells via the up-regulation of manganese superoxide dismutase

Rel/nuclear factor kappaB transcription factors were shown to have either pro- or antiapoptotic as well as pro- or antiproliferative functions, and it is often assumed that the outcome of their activation depends on the cell type or cellular context. Inconsistent with this assumption, we show here that cRel is able in one cell type to inhibit proliferation, protect against apoptosis induced by tumor necrosis factor alpha (TNF-alpha) + cycloheximide (CHX), and increase the basal rate of apoptosis. Both the effects of proliferation inhibition and protection against TNF-alpha + CHX-induced apoptosis are massive and occur in the same cells. Using reverse transcription-PCR, Western blot and immunofluorescence, and transactivation assays, we found that the manganese superoxide dismutase (MnSOD), an enzyme that converts O2*- in H2O2, is up-regulated by cRel through a kappaB site in intron 2. Inhibition of MnSOD induction by antisense oligonucleotides and overexpression of MnSOD respectively reverts and mimics both the antiproliferative and antiapoptotic effects of cRel, suggesting that they both occur via the induction of this gene. On one hand, MnSOD could improve the efficiency of cRel-overexpressing cells in eliminating toxic O2*- produced on TNF-alpha treatment, explaining why they escape TNF-alpha-induced apoptosis. On the other hand, cRel-overexpressing cells should accumulate H2O2. We present evidence linking this H2O2 accumulation to the proliferation arrest induced by cRel. Therefore, different effects on proliferation and apoptosis could arise from the induction of MnSOD and thus coexist in cRel-overexpressing cells.

Identification in the human candidate tumor suppressor gene HIC-1 of a new major alternative TATA-less promoter positively regulated by p53

HIC-1 (hypermethylated in cancer 1), a BTB/POZ transcriptional repressor, was isolated as a candidate tumor suppressor gene located at 17p13.3, a region hypermethylated or subject to allelic loss in many human cancers and in the Miller-Dieker syndrome. The human HIC-1 gene is composed of two exons, a short 5'-untranslated exon and a large second coding exon. Recently, two murine HIC-1 isoforms generated by alternative splicing have been described. To determine whether such isoforms also exist in human, we have further analyzed the human HIC-1 locus. Here, we describe and extensively characterize a novel alternative noncoding upstream exon, exon 1b, associated with a major GC-rich promoter. We demonstrate using functional assays that the murine exon 1b previously described as coding from computer analyses of genomic sequences is in fact a noncoding exon highly homologous to its human counterpart. In addition, we report that the human untranslated exon is presumably a coding exon, renamed exon 1a, both in mice and humans. Both types of transcripts are detected in various normal human tissues with a predominance for exon 1b containing transcripts and are up-regulated by TP53, confirming that HIC-1 is a TP53 target gene. Thus, HIC-1 function in the cell is controlled by a complex interplay of transcriptional and translational regulation, which could be differently affected in many human cancers.

Structure of the gene for the human 17beta-hydroxysteroid dehydrogenase type IV

The 17beta-hydroxysteroid dehydrogenase type IV (17beta-HSD IV) is a multifunctional enzyme that is localized in the peroxisomes. The N-terminal part has dehydrogenase activity, the central part has hydratase activity, and the carboxy-terminal part is responsible for sterol transport. Recent observations of mutations in the human 17beta-HSD IV cDNA leading to a severe peroxisomal disorder motivated us to define the genomic organization of this gene mapped to Chromosome (Chr) 5q2. We show here that this gene consist of 24 exons and 23 introns with classical intron-exon junctions spanning more than 100 kbp. By mapping the regulatory region of this gene, we have shown that the first 400 bp upstream of the transcription start site are sufficient to activate transcription. The data presented here will permit sequence analysis of patients with peroxisomal disorders.

Thyroid hormone receptor genes of neotenic amphibians

Since thyroid hormones play a pivotal role in amphibian metamorphosis we used PCR to amplify DNA fragments corresponding to a portion of the ligand-binding domain of the thyroid hormone receptor (TR) genes in several neotenic amphibians: the obligatory neotenic members of the family Proteidea the mudpuppy Necturus maculosus and Proteus anguinus as well as two members of the facultative neotenic Ambystoma genus: the axolotl Ambystoma mexicanum and the tiger salamander Ambystoma tigrinum. In addition, we looked for TR genes in the genome of an apode Typhlonectes compressicaudus. TR genes were found in all these species including the obligatory neotenic ones. The PCR fragments obtained encompass both the C and E domains and correspond to alpha and beta genes. Their sequences appear to be normal, suggesting that there is no acceleration of evolutionary rates in the TR genes of neotenic amphibians. This result is not surprising for Ambystomatidae, which are known to respond to T3 (3,3',5-triiodothyronine) but is not in agreement with biochemical and biological data showing that Proteidea cannot respond to thyroid hormones. Interestingly, by RT-PCR analysis we observed a high expression levels of TRalpha in gills, intestine, and muscles of Necturus as well as in the liver of Ambystoma mexicanum, whereas TRbeta expression was only detected in Ambystoma mexicanum but not in Necturus. Such a differential expression pattern of TRalpha and TRbeta may explain the neoteny in Proteidea. The cloning of thyroid-hormone-receptor gene fragments from these species will allow the molecular study of their failure to undergo metamorphosis.

The ERR-1 orphan receptor is a transcriptional activator expressed during bone development

We studied the expression of estrogen-related receptor ERR-1 during mouse embryonic development. ERR-1 mRNA is present in bones formed by both the endochondral and intramembranous routes, and the onset of its expression coincides with bone formation. By RT-PCR experiments, we found that ERR-1, but not the related receptor ERR-2, is expressed in osteoblastic osteosarcoma cell lines as well as in primary osteoblastic cell populations derived from normal human bone. By gel shift analysis we found that ERR-1 binds as a monomer specifically to the SFRE sequence (SF-1-responsive-element; TCAAGGTCA). Mutation analysis revealed that both the core AGGTCA motif and the TCA 5'-extension are required for efficient ERR-1 binding. In transient transfection assays, ERR-1 acts as a potent transactivator through the SFRE sequence. This effect is cell-specific since ERR-1 activates transcription in the rat osteosarcoma cell line ROS 17.2/8 as well as in HeLa, NB-E, and FREJ4 cells but not in COS1 and HepG2 cells. Notably, the osteopontin (a protein expressed by osteoblasts and released in the bone matrix) gene promoter is a target for ERR-1 transcriptional regulation. Our findings suggest a role for ERR-1 in bone development and metabolism.

[Seroprevalence of cysticercosis, taeniasis and swine infection on Réunion Island in 1992]

Cysticercosis is a parasitic disease commonly observed in developing countries in Latin America, Africa, and Asia. Many cases involving cerebral injury have been reported on Reunion Island, a French department in the Indian Ocean. The present article describes the findings of a seroprevalence survey performed from September 1990 to May 1992 using an ELISA technique. Out of a total of 1010 individuals randomly selected from the voter registration records of the island's 24 polling districts, 993 agreed to be interviewed and undergo blood testing. Samples from 14 individuals were positive for cysticercosis, indicating a seroprevalence of 1.4% with 95% confidence interval from 0.7 to 2.1%. Seropositive individuals were evenly distributed throughout the island with no statistical difference regarding sex and age. A retrospective study showed that diagnosis of taeniasis was uncommon (less than 0.02% of stool examinations for parasites). Meat inspection records showed that no pork had be seized due to taeniasis since 1993 but raising of pigs by private citizens without veterinarian control is still widespread. Living conditions are improving and eradication of endemic cysticercosis seems achievable by enforcing zoning codes and educating people about the need for proper meat handling and treatment of taeniasis.

The 5' part of the human H19 RNA contains cis-acting elements hampering its translatability

H19 is an imprinted gene developmentally regulated in man and mouse and implicated in various neoplasms. No corresponding protein product has yet been detected, although several open reading frames (ORFs) could be identified along its RNA. The largest ORF found in the human gene could encode a putative 26 kDa protein. We have isolated two H19 cDNAs (AP and ES) that contain this ORF4 and correspond to incomplete copies of the unique 2.3 kb H19 RNA. In transient expression assays, AP was able to synthesize a 26 kDa protein whereas ES was not. With respect to ORF4, ES exhibits a 536 bp long GC-rich 5' untranslated region, whereas AP contains the last 22 nucleotides of this 5'UTR. Using deletions and point mutations, we have found that the length and probably the secondary structure of the 5'UTR strongly hampers the translatability of the RNA. In addition, a potential role of upstream ORFs (uORFs) was detected as stressed by the enhances translation of a construct mutated in uORF3 overlapping ORF4. Interactions between H19 and proteins are indicated by a specific binding between 5'UTR derived RNA segments and two nuclear proteins of about 27 kDa. Our results favor a potential role of these particular structures and binding properties in general trans-regulation of RNA post-transcriptional processes rather than in normal control of H19 mRNA translation.

A cAMP response element and an Ets motif are involved in the transcriptional regulation of flt-1 tyrosine kinase (vascular endothelial growth factor receptor 1) gene

The flt-1 gene encodes a transmembrane tyrosine kinase, Flt-1, a receptor for vascular endothelial growth factor. The expression of flt-1 gene is restricted to endothelial cells in vivo. To understand the molecular mechanism underlying endothelial-specific expression of this gene, we studied the functional significance of transcriptional motifs in the 200-base pair region of the human flt-1 gene promoter, which has been identified to confer cell type specificity. By point mutation analysis using chloramphenicol acetyltransferase plasmids in 293E1 cells, which express significant levels of flt-1 mRNA, we found that an Ets motif, E4, at -54 to -51 and a cAMP response element (CRE) at -83 to -76 are involved in the transcriptional regulation of this gene. Disruption of either this CRE or E4 within the promoter sequence of 90 base pairs resulted in a decrease in chloramphenicol acetyltransferase activity of 90%, indicating that co-existence of both of CRE and Ets motif E4 is necessary for transcription of the flt-1 gene. Co-transfection of an expression vector containing c-ets-1, c-ets-2, or c-erg cDNA with this 90-base pair sequence yielded a 5-8-fold elevation of chloramphenicol acetyltransferase activity, further supporting the idea that Ets family protein(s) participates in the regulation of the flt-1 gene. Gel shift assays using nuclear extracts of 293E1 and endothelial cells demonstrated the existence of protein factor(s) that specifically binds to CRE and Ets motif E4, respectively. Taken together, our results strongly suggest cooperation of a CRE and an Ets motif for the function of the flt-1 gene promoter.

Molecular characterization of mouse 17 beta-hydroxysteroid dehydrogenase IV

17 beta-hydroxysteroid dehydrogenases (17 beta-HSD) catalyze the conversion of estrogens and androgens at the C17 position. The 17 beta-HSD type I, II, III and IV share less than 25% amino acid similarity. The human and porcine 17 beta-HSD IV reveal a three-domain structure unknown among other dehydrogenases. The N-terminal domains resemble the short chain alcohol dehydrogenase family while the central parts are related to the C-terminal parts of enzymes involved in peroxisomal beta-oxidation of fatty acids and the C-terminal domains are similar to sterol carrier protein 2. We describe the cloning of the mouse 17 beta-HSD IV cDNA and the expression of its mRNA. A probe derived from the human 17 beta-HSD IV was used to isolate a 2.5 kb mouse cDNA encoding for a protein of 735 amino acids showing 85 and 81% similarity with human and porcine 17 beta-HSD IV, respectively. The calculated molecular mass of the mouse enzyme amounts to 79,524 Da. The mRNA for 17 beta-HSD IV is a single species of about 3 kb, present in a multitude of tissues and expressed at high levels in liver and kidney, and at low levels in brain and spleen. The cloning and molecular characterization of murine, human and porcine 17 beta-HSD IV adds to the complexity of steroid synthesis and metabolism. The multitude of enzymes acting at C17 might be necessary for a precise control of hormone levels.

Molecular cloning of a novel widely expressed human 80 kDa 17 beta-hydroxysteroid dehydrogenase IV

Reactions of oestrogens and androgens at position C-17 are catalysed by 17 beta-hydroxysteroid dehydrogenases (17 beta-HSDs). Cloning of the cDNA of a novel human 17 beta-HSD IV and expression of its mRNA are described. A probe derived from the recently discovered porcine 17 beta-oestradiol dehydrogenase (17 beta-EDH) was used to isolate a 2.6 kb human cDNA encoding a continuous protein of 736 amino acids of high (84%) similarity to the porcine 17 beta-EDH. The calculated molecular mass of the human enzyme is 79,595 Da. Other sequence similarities shared by the two enzymes are: an N-terminal sequence which is similar to that of members of the short-chain alcohol dehydrogenase family; amino acids 343-607 which are similar to the C-terminal domains of a trifunctional Candida tropicalis enzyme and the FOX2 gene product of Saccharomyces cerevisiae; amino acids 596-736 which are similar to human sterol carrier protein 2. The previously cloned human 17 beta-HSD I, II and III are less than 25% identical with 17 beta-HSD IV. mRNA for HSD IV is a single species of 3.0 kb, present in many tissues with highest concentrations in liver, heart, prostate and testes. When over-expressed in mammalian cells, the human 17 beta-HSD IV enzyme displays a specific unidirectional oxidative 17 beta-HSD activity.

Rab2 nucleotide coding sequence in gallus gallus and it phylogenetic position

The nucleic acid sequence of the chicken rab2 mRNA was determined by sequencing a full length cDNA. The phylogeny of rab2 sequences was established.

Rev-erb beta, a new member of the nuclear receptor superfamily, is expressed in the nervous system during chicken development

We have identified and characterized a new orphan member of the nuclear hormone receptor superfamily in the chicken. This new gene, called Rev-erb beta, exhibits strong homologies with the Rev-erb alpha/ear-1 orphan receptor gene, which partially overlaps the thyroid hormone receptor alpha gene in opposite orientation. We demonstrate that both Rev-erb alpha and Rev-erb beta genes are conserved in their C and E domains. Rev-erb beta binds to DNA as a monomer and recognizes the same binding motif as the alpha gene product. The Rev-erb beta gene product does not interact with retinoid X receptors, as revealed by gel shift experiments. In situ hybridization experiments show that Rev-erb beta is expressed in the central and peripheric nervous system, spleen, and mandibular and maxillar processes, as well as in blood islands. During embryonic development, we noticed a striking specific distribution of Rev-erb beta transcripts in the notochord at 24 h and later on, in the floor plate of the neural tube. We propose that Rev-erb beta may play an important role in the complex network of inductive signals, which control neuron differentiation.

A model for gene evolution of the ets-1/ets-2 transcription factors based on structural and functional homologies

The chicken c-ets-1 locus encodes two transcription factors, p54c-ets-1 and p68c-ets-1 that differ in their N-termini, encoded respectively by the I54 and alpha beta exons. p68c-ets-1 equivalents are only found in birds and reptiles while p54c-ets-1 is widely conserved in vertebrates, from amphibians to mammals. Thus, the classical view concerning the evolution of the c-ets-1 gene has been to consider that I54 is of ancient origin whereas alpha and beta, which provide an additional activating domain in p68c-ets-1, would have been acquired much more recently. Sequencing the alpha and beta exons in various species pinpointed a highly conserved region of 13 amino acids which is rich in acidic and hydrophobic residues, a feature of some other transactivating domains. Strikingly, this subdomain is also present in the otherwise unrelated N-terminal activating region of p58c-ets-2 and was thus named BEC for Ets-1-beta/Ets-2-Conserved sequence. Moreover, the two N-termini share the BEC sequence at a homologous position in their highly similar genomic organization indicating a common origin. This structural homology underlies a functional similarity since fusion of the heterologous GAL4 DNA-binding domain with either of the two isolated domains demonstrates that BEC is essential in both cases for the transactivating activity. The function of the alpha beta domain in the context of p68c-ets-1 also strictly depends on the presence of the BEC sequence. Finally, the whole N-terminus of p58c-ets-2 can functionally substitute for its counterpart in p68c-ets-1 further demonstrating that p68c-ets-1 and p58c-ets-2 are structurally and functionally more closely related than previously thought. Besides, we also found BEC in the N-terminus of the Drosophila pointed gene which may be considered as closely related to the uncommitted 'ets1/2' common ancestor. These data demonstrate that the alpha and beta exons are not a recent and specific acquisition but stem, like the p58c-ets-2 N-terminus, from the invertebrate unduplicated 'ets 1/2' gene. This work unravels a new model for the ets-1/ets-2 gene's evolution, based for the first time on both structural and functional evidences. Accordingly, p68c-ets-1 and p58c-ets-2 are the direct descendants of the ancestral 'ets1/2' gene whereas I54 may have been acquired as a second promoter in the c-ets-1 gene after the duplication. Indeed, I54 is not found in the Drosophila pointed gene. The high degree of similarity, and hence of functional redundancy, between p68c-ets-1 and p58c-ets-2 may have led to the rapid divergence (and even loss in mammals) of alpha and beta during evolution whereas I54, which provided a novel function unique to c-ets-1, was maintained within the presently widespread p54c-ets-1 version.

Characterization of a functional promoter for the human thyroid hormone receptor alpha (c-erbA-1) gene

The thyroid hormone receptor alpha (THRA or c-erbA-1) gene belongs to a family of genes that encode nuclear receptors for various hydrophobic ligands such as steroids, retinoic acid and thyroid hormones. We have previously described the genomic organization of the human THRA gene, which comprises 10 exons distributed along 27 kbp of genomic DNA. We describe here a promoter that initiates THRA transcription. This promoter contains no obvious TATA-like element but is very GC rich and harbors numerous Sp1 sites. It also contains several sites similar to previously described cis-acting sequences including hormone-responsive elements (HREs). When transfected into cultured HeLa cells, it drives the expression of a CAT reporter gene. The activity of this human THRA promoter is enhanced by the synthetic glucocorticoid dexamethasone but seems unaffected by thyroid hormones.

Phylogeny of the p68c-ets-1 amino-terminal transactivating domain reveals some highly conserved structural features

The chicken c-ets-1 locus gives rise to two distinct transcription factors differing only in their structurally and functionally unrelated N-termini. One of these transcription factors, p54c-ets-1, contains a specific, short (27 amino acids), hydrophilic N-terminus encoded by a single exon, I54, that is widely conserved among vertebrates. The other one, p68c-ets-1, the cellular counterpart of the viral ets oncogene product, differs in the replacement of the I54 by two exons, termed alpha and beta, encoding a larger (71 amino acids), hydrophobic N-terminus which, in contrast to I54, exhibits properties of a transactivating domain. To date the alpha and beta exons have only been found in chicken. Here, we demonstrate the existence of the alpha and beta exons in other avian species (quail and duck) and the existence of the alpha exon in reptiles (turtle). However, none of them could be detected in mammals. Our results strongly suggest that, in contrast to the phylogenetically well-conserved I54 exon, the alpha exon is restricted to reptilian species (birds and 'true' reptiles), whereas the beta exon is detectable so far only in birds. Comparison of their amino acid sequences reveals that the alpha exon and to a much greater extent the beta exon have diverged faster than the I54 exon. In addition, we show that the N- and C-terminal thirds of the alpha exon and the highly hydrophobic nature of the alpha beta-encoded sequence are heavily conserved features and thus likely to be required for function as a transactivating domain in p68c-ets-1 and possibly in the viral P135gag-myb-ets transforming protein.

Genomic organization of the human thyroid hormone receptor alpha (c-erbA-1) gene

The thyroid hormone receptor alpha (THRA or c-erbA-1) gene belongs to a family of genes which encode nuclear receptors for various hydrophobic ligands such as steroids, vitamin D, retinoic acid and thyroid hormones. These receptors are composed of several domains important for hormone-binding, DNA-binding, dimerization and activation of transcription. We show here that the human THRA gene is organized in 10 exons distributed along 27 kbp of genomic DNA on chromosome 17. The position of the introns in human THRA is highly conserved when compared to the chicken gene despite their differing lengths. The N-terminal A/B domain as well as the 5' untranslated region is encoded by two exons. Interestingly, each of the putative zinc fingers of the receptor DNA-binding domain is encoded by one exon and the hormone-binding domain is assembled from three exons. The two last exons of the gene are alternatively spliced to generate two different messenger RNAs. In addition, we confirm that another gene, belonging to the nuclear receptor superfamily, ear-1, overlaps with the 3' region of THRA in an opposite transcriptional orientation.

The c-ets proto-oncogenes encode transcription factors that cooperate with c-Fos and c-Jun for transcriptional activation

Cell transformation by oncogenes leads to changes in gene expression. A key event in this process seems to be activation of the transcription factors AP-1 and PEA 3. Their synergistic activities are required for efficient activation of transcription from different promoters by many different oncogenes, serum growth factors and the tumour promoter TPA. We show here that the products of the ets-1 and -2 proto-oncogenes, whose biological function was previously unknown, are transcription factors that activate transcription through the PEA 3 motif. The p68c-ets-1 protein specifically binds to DNA and contains a transcriptional activation domain. The ets-like gene family therefore seems to encode a new family of transcription factors, apparently unrelated to other transcription factors. The p68c-ets-1 protein cooperates with c-Fos and c-Jun (components of AP-1) for activation of transcription from the oncogene-responsive domain of the polyoma enhancer, indicating that combined activity of all three oncoproteins could be involved in the response of cells to growth stimuli.

Definition of an Ets1 protein domain required for nuclear localization in cells and DNA-binding activity in vitro

Ets1 and Ets2 are nuclear phosphoproteins which bind to DNA in vitro and share two domains of strong identity. Deletion analyses of each of these conserved regions in Ets1 demonstrated that integrity of the carboxy-terminal domain, also conserved in the more distantly related elk and erg gene products, is essential for both nuclear targeting and DNA-binding activity in vitro.

Alternative splicing of RNAs transcribed from the chicken c-mil gene

Two distinct c-mil-related cDNA clones have been isolated from a chicken embryo cDNA library. Results presented here show that the single chicken c-mil gene is coding for two c-mil mRNA species, different by at least 60 base pairs and generated by an alternative splicing mechanism. These mRNA molecules can be translated into two distinct proteins of 73 and 71 kilodaltons.

Identification in chickens of an evolutionarily conserved cellular ets-2 gene (c-ets-2) encoding nuclear proteins related to the products of the c-ets proto-oncogene

In chicken cells, we previously identified a set of proteins (p58-64) structurally related to, but distinct from, the products encoded by the c-ets proto-oncogene. We report here the isolation and nucleotide sequence of a cDNA encoding nuclear products of mol. wt 58, 60, 62 and 64 kd, indistinguishable from those detected in chicken cells. The p60 and p64 species appear to represent phosphorylated versions on serine and threonine residues of p58 and p62. The homology of p58-64 to other ets-related proteins, including the v-ets encoded domain of the transforming protein of avian leukemia virus E26 and p54c-ets, the translation product of the chicken (Ck) c-ets gene, is confined to two regions of 175 and 96 amino acid residues localized respectively at the carboxy-terminal domain and close to the amino-terminal domain of these molecules. This cDNA corresponds to a gene localized in a locus distinct from that of c-ets which is transcribed as a 4.0-kb RNA species in most chicken tissues. We also identified the human (Hu) c-ets-2-encoded products as two proteins of 60 and 62 kd, highly related to chicken p58-64. This, together with the fact that the amino acid sequence of the cDNA encoding p58-64 is 95% identical to the reported partial sequence of a Hu-c-ets-2 cDNA, indicates that p58-64 are the translation products of the Ck-c-ets-2 gene.

Induction of proliferation of neuroretina cells by long terminal repeat activation of the carboxy-terminal part of c-mil

Expression of the P100gag-mil protein of avian retrovirus MH2 in cultured chicken embryo neuroretina cells was previously shown to result in the proliferation of normally quiescent cell populations. We show here that long terminal repeat activation of the carboxy terminus of the c-mil gene is sufficient to induce neuroretina cell proliferation.

Characterization of a myc-containing retrovirus generated by propagation of an MH2 viral subgenomic RNA

We have previously isolated, from wild-type MH2 virus that contains the two oncogenes mil and myc, mutants defective in one or the other oncogene product. We report here the molecular cloning and extensive characterization of MH2 CL25 provirus lacking the v-mil oncogene. Our results indicate that this virus corresponds to the propagation of the 2.8-kilobase subgenomic RNA of MH21.

Increased transcription of the c-myc oncogene in two methylcholanthrene-induced quail fibroblastic cell lines

The expression of three c-onc genes (c-erb, c-myc, c-myb) was investigated in five cell lines established from fibrosarcomas induced with 20-methylcholanthrene (MCA) of Japanese quails. These cell lines showed low levels of the three c-onc genes, with the exception of two cell lines that accumulated moderate (MCAQ 1-4) and large amounts (MCAQ3-5) of c-myc RNA. Molecular cloning and restriction endonuclease analyses indicated that expression of c-myc in these two cell lines were not associated with detectable rearrangements in the c-myc locus, that the size of the c-myc transcript (2.7 kb) in MCAQ 3-5 was similar to that of the normal c-myc messenger RNAs (mRNA) and that the transcriptional activation observed in MCAQ 3-5 was not mediated by the LTR (long terminal repeat) of a proximate ALV (avian leukosis virus) provirus. Finally, when analysed with the restriction enzymes Msp I and Hpa II, the c-myc locus of MCAQ 3-5 and MCAQ 1-4 was found hypomethylated as compared with that of the other cell lines tested that show low levels of c-myc transcripts. Our results suggest that one of the ways methylcholantrene could mediate transformation is by inducing an abnormal regulation of the c-myc gene.

The human DNA locus related to the oncogene myb of avian myeloblastosis virus (AMV): molecular cloning and structural characterization

Chicken and human cell DNA contains sequences homologous to the avian myeloblastosis virus oncogene, v-myb. These cellular sequences, c-myb (human) and c-myb (chicken), were isolated from libraries of human or chicken cell DNA fragments, generated by partial digestion with the restriction enzymes AluI and HaeIII, and compared. The chicken c-myb locus isolated from two distinct overlapping recombinant phages, contained five contiguous EcoRI fragments of 5.4, 1.1, 2.1, 2.2 and 9 kbp, accounting for all the bands seen with a v-myb probe in a complete EcoRI digest of chicken cellular DNA. Likewise, the screening of the human library yielded a recombinant phage hybridizing with the v-myb specific probe, that contained five EcoRI fragments of 2.8, 2.6, 2.0, 1.2 and 5.0 kbp (the last ending with an artificial EcoRI site, due to the construction of the library) belonging to the c-myb (human) locus. Probes using the EcoRI chicken DNA cloned fragments revealed corresponding contiguous EcoRI fragments in the human clone. Subsequent analyses of cellular polyadenylated mRNA extracted from human and chicken cells allowed the identification of single RNA species of 3.8 and 4.0 kb, respectively, as the representative transcripts of the c-myb locus in the two species. Thus, c-myb appears as a single locus in man and chicken, conserved with a similar structure in the two distantly related species. Our preparation of a specific human c-myb probe with an increased sensitivity on DNA/RNA blots should facilitate analyses concerning this gene in human normal or tumour cells or tissues.

Molecular cloning and characterization of the chicken DNA locus related to the oncogene erbB of avian erythroblastosis virus

Chicken cell DNA contains sequences which are homologous to the avian erythroblastosis virus oncogene v-erb. These cellular sequences (c-erb) have been isolated from a library of chicken cell DNA fragments generated by partial digestion with AluI and HaeIII and shown to be shared by at least two loci in the chicken DNA. One of them, denoted c-erbB, contains approximately 1.8 kilobase pairs of chicken DNA homologous to the 3' part of the v-erb oncogene (v-erbB). Restriction mapping studies show that the c-erbB DNA sequences homologous to v-erbB are distributed among six EcoRI fragments located in a single genomic region. Heteroduplexes between v-erbB in viral RNA and cloned c-erbB DNA show that the chicken DNA sequences homologous to v-erbB are interrupted by 11 DNA sequences not present in the v-erb oncogene. We conclude from our data that the c-erbB locus might represent the cellular progenitor for the v-erbB domain of the v-erb oncogene.