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Two genetic loci regulate hepatic alpha-fetoprotein (AFP) mRNA levels in adult mice. The raf locus controls basal levels and the Rif locus determines the degree of induction during liver regeneration. We have investigated the function of each locus during L-ethionine-mediated AFP induction using adult female mice with different Rif/raf genotypes. A single intraperitoneal injection of L-ethionine (0.5 mg/g body weight) resulted in significant triglyceride accumulation in hepatic parenchymal cells and increased AFP synthesis 48-96 h following injection. Hepatic AFP mRNA levels in Balb/cJ mice (high basal level/high induction level during regeneration) were 10- to 30-fold higher than Balb/cCRBL or C3H/He mice (low basal level/high induction level) following ethionine injection, indicating that raf-mediated differences persisted throughout the course of acute ethionine poisoning. The magnitude of this induction was similar to that seen during carbon tetrachloride-induced regeneration. In contrast, C57BL/6 mice (low basal level/low induction level during regeneration) contained hepatic AFP mRNA levels similar to Balb/cCRBL and C3H/He mice following ethionine injection. Thus, Rif-dependent differences seen during liver regeneration were not seen during acute ethionine poisoning. This leads us to conclude that (1) hepatic AFP mRNA induction by ethionine may not be mediated by the Rif locus if Rif is a transcriptional inducer, or (2) if Rif is a transcriptional repressor, it is inactivated equally in all strains during acute ethionine poisoning, unlike during liver regeneration. Hepatic albumin mRNA levels were not affected by ethionine treatment in vivo. L-Ethionine elevated AFP mRNA levels in primary mouse hepatocyte cultures; however, ethionine treatment also increased albumin mRNA levels in vitro.
Somat Cell Mol Genet 1988 Nov
PMID:Genetic analysis of L-ethionine-mediated induction of alpha-fetoprotein in mice. 246

To study the functional domains of a transcriptional repressor encoded by the GAL80 gene of Saccharomyces cerevisiae, we constructed various deletion and insertion mutations in the GAL80 coding region and determined the ability of these mutations to repress synthesis of galactose-metabolizing enzymes as well as the capacity of the mutant proteins to respond to the inducer. Two regions, from amino acids 1 to 321 and from amino acids 341 to 423, in the total sequence of 435 amino acids were required for repression. The internal region from amino acids 321 to 340 played a role in the response to the inducer. The 12 amino acids at the carboxy terminus were dispensable for normal functioning of the GAL80 protein. Using indirect immunofluorescence and subcellular fractionation techniques, we also found that two distinct regions (amino acids 1 to 109 and 342 to 405) within the putative repression domain were capable of directing cytoplasmically synthesized Escherichia coli beta-galactosidase to the yeast nucleus. In addition, three gal80 mutations were mapped at amino acid residues 183, 298, and 310 in the domain required for repression. On the basis of these results, we suggest that the GAL80 protein consists of a repression domain located in two separate regions (amino acid residues 1 to 321 and 341 to 423) that are interrupted by an inducer interaction domain (residues 322 to 340) and two nuclear localization domains (1 to 109 and 342 to 405) that overlap the repression domains.
Mol Cell Biol 1989 Jul
PMID:Functional domains of a negative regulatory protein, GAL80, of Saccharomyces cerevisiae. 250 35

In this study, we show that c-fgr proto-oncogene expression is limited to normal peripheral blood granulocytes, monocytes, and alveolar macrophages, all of which contain 50 to 100 copies of c-fgr mRNA per cell. The c-fgr RNA molecules in these cells consisted of partially spliced transcripts containing intron 7 and completely spliced molecules capable of encoding the predicted p55 c-fgr protein. The splicing of intron 7 appeared to occur after the splicing of most of the other introns; partially spliced molecules containing intron 7 did not appear to be transported into the cytoplasm. Very low levels of fgr transcripts were also present in U937 promonocytic cells and increased in abundance with 12-O-tetradecanoylphorbol-13-acetate (TPA)-induced differentiation. The level of fgr transcripts began to increase 2 to 4 h after TPA addition, peaked at 8 h, and subsequently declined. Since we found that the half-life of fgr mRNA was longer than 8 h, these changes are best explained by transient transcriptional activation of fgr during TPA-induced differentiation, although nuclear runoff experiments were not sensitive enough to detect this event. Cycloheximide also caused accumulation of c-fgr transcripts in U937 cells; no superinduction was observed when TPA and cycloheximide were added at the same time. Induction by either agent was blocked with actinomycin D. These results demonstrate that the c-fgr gene is expressed in a tissue- and development-specific fashion and suggest that constitutive expression of c-fgr in U937 cells is regulated by a labile transcriptional repressor.
Mol Cell Biol 1989 Jan
PMID:Tissue-specific expression and developmental regulation of the human fgr proto-oncogene. 253 25

Transcriptional activation of middle genes in bacteriophage T4 requires the phage-encoded motA protein. Many middle genes are involved in deoxyribonucleotide biosynthesis and phage DNA replication. In the absence of motA, the gene products that are required for DNA synthesis are transcribed from other, upstream promoters. Using primer extension sequencing on RNA templates isolated from T4 motA+ and motA- infected cells, we have characterized 14 motA-dependent transcripts. The T4 middle promoters have a consensus sequence of nine base-pairs, (a/t)(a/t)TGCTT(t/c)A, spaced 11 to 13 nucleotides away from the Escherichia coli--10 consensus sequence, TAnnnT. The motA protein also can act as a transcriptional repressor for at least one early gene. Furthermore, the phage-encoded motA protein can activate in trans a middle promoter resident on a plasmid.
J Mol Biol 1988 Jan 20
PMID:Transcriptional activation of bacteriophage T4 middle promoters by the motA protein. 328 Aug 3

Levels of gonococcal resistance to antimicrobial hydrophobic agents (HAs) are controlled by the mtr (multiple transferrable resistance) system, composed of the mtrRCDE genes. The mtrR gene encodes a transcriptional repressor that appears to regulate expression of the upstream and divergent mtrCDE operon. The mtrCDE genes encode membrane proteins analogous to the MexABOprK proteins of Pseudomonas aeruginosa that mediate export of structurally diverse antimicrobial agents. In this study we found that a single base pair deletion in a 13 bp inverted repeat sequence within the mtrR promoter resulted in increased resistance of gonococci to both crystal violet (CV) and erythromycin (ERY) as well as to the more lipophilic non-ionic detergent Triton X-100 (TX-100). However, this cross-resistance was contingent on the production of a full-length lipooligosaccharide (LOS) by the recipient strain used in transformation experiments. Introduction of this mutation (mtrR-171) into three chemically distinct deep-rough LOS mutants by transformation resulted in a fourfold increase in resistance to TX-100 compared with a 160-fold increase in an isogenic strain producing a full-length LOS. However, both wild-type and deep-rough LOS strains exhibited an eightfold increase in resistance to CV and ERY as a result of the mtrR-171 mutation. This suggests that gonococci have different LOS structural requirements for mtr-mediated resistance to HAs that differ in their lipophilic properties. Evidence is presented that gonococci exclude HAs by an energy-dependent efflux process mediated by the mtr system.
Mol Microbiol 1995 Jun
PMID:Importance of lipooligosaccharide structure in determining gonococcal resistance to hydrophobic antimicrobial agents resulting from the mtr efflux system. 747 76

Thyroid hormone receptor acts as a hormone-dependent transcriptional transactivator and as a transcriptional repressor in the absence of thyroid hormone. Specifically, thyroid hormone receptor can repress retinoic acid-induced gene expression through interactions with retinoic acid receptor. (Retinoic acid is a potent teratogen in the frog Xenopus laevis, acting at early embryonic stages to interfere with the formation of anterior structures. Endogenous retinoic acid is thought to act in normal anterior-posterior axis formation.) We have previously shown that thyroid hormone receptor RNA (alpha isotype) is expressed and polysome-associated during Xenopus embryogenesis preceding thyroid gland maturation and endogenous thyroid hormone production (D. E. Banker, J. Bigler, and R. N. Eisenman, Mol. Cell. Biol. 11:5079-5089, 1991). To determine whether thyroid hormone receptor might influence the effects of retinoic acid in early frog development, we have examined the results of ectopic thyroid hormone receptor expression on retinoic acid teratogenesis. We demonstrate that microinjections of full-length thyroid hormone receptor RNA protect injected embryos from retinoic acid teratogenesis. DNA binding is apparently essential to this protective function, as truncated thyroid hormone receptors, lacking DNA-binding domains but including hormone-binding and dimerization domains, do not protect from retinoic acid. We have shown that microinjections of these dominant-interfering thyroid hormone receptors, as well as anti-thyroid hormone receptor antibodies, increase retinoic acid teratogenesis in injected embryos, presumably by inactivating endogenous thyroid hormone receptor. This finding suggests that endogenous thyroid hormone receptors may act to limit retinoic acid sensitivity. On the other hand, after thyroid hormone treatment, ectopic thyroid hormone receptor mediates teratogenesis that is indistinguishable from the dorsoanterior deficiencies produced in retinoic acid teratogenesis. The previously characterized retinoic acid-responsive gene, Xhox.lab2, can be induced by thyroid hormone in embryos ectopically expressing thyroid hormone receptor and is less responsive to retinoic acid in such embryos. The fact that both thyroid hormone and retinoic acid can affect overlapping gene expression pathways to produce abnormal embryonic axes and can regulate the same early-expressed gene suggests a model in which thyroid hormone receptor blocks retinoic acid receptor-mediated teratogenesis by directly repressing retinoic acid-responsive genes.
Mol Cell Biol 1993 Dec
PMID:Thyroid hormone receptor can modulate retinoic acid-mediated axis formation in frog embryogenesis. 750 77

To isolate transcription factors important in the regulation of the human interleukin-3 (IL-3) gene, we screened a lambda gt11 cDNA library, constructed from phytohemagglutinin-stimulated human T-cell RNA, with a probe containing regulatory sequences in the upstream region of the IL-3 gene (located from bp -165 to -128 and referred to as the DNase I footprint A region). We isolated a 0.96-kb cDNA that encoded a basic amino acid domain and a leucine zipper domain and used the "rapid amplification and cloning of 3' ends" technique to isolate the 3' half of the cDNA clone, generating a 1.9-kb full-length cDNA clone. Using in vitro-translated protein, which we call NF-IL3A, we defined the IL-3 promoter sequences bound by NF-IL3A in DNase I footprinting assays as TAATTACGTCTG and, using gel shift assays, defined ATTACG as the minimal sequence required for binding of NF-IL3A in vitro. Proteins that bind to the NF-IL3A binding site are found in both unstimulated and stimulated T-cell lines in similar amounts, although the level of NF-IL3A mRNA increases after T-cell activation in several mature T-cell lines. The NF-IL3A protein is nearly identical to a recently identified transcriptional repressor protein, E4BP4, and NF-IL3A binds specifically to regulatory sequences in both the adenovirus E4 promoter and the human gamma interferon promoter. Cotransfection experiments demonstrate that introduction of an expression vector containing the NF-IL3A cDNA into resting T cells transactivates IL-3 promoter-chloramphenicol acetyltransferase gene plasmids that contain the A region; this effect requires the presence of an intact NF-IL3A binding site. One or more copies of the A region also confer NF-IL3A responsiveness on a heterologous promoter in T cells. NF-IL3A appears to play an important role in the expression of IL-3 by T cells.
Mol Cell Biol 1995 Nov
PMID:Molecular cloning and characterization of NF-IL3A, a transcriptional activator of the human interleukin-3 promoter. 756 58

The Drosophila homeodomain protein Even-skipped (Eve) has previously been shown to function as a sequence-specific transcriptional repressor, and in vitro and in vivo experiments have shown that the protein can actively block basal transcription. However, the mechanism of repression is not known. Here, we present evidence establishing a direct interaction between Eve and the TATA-binding protein (TBP). Using cotransfection assays with minimal basal promoters whose activity can be enhanced by coexpression of TBP, we found that Eve could efficiently block, or squelch, this enhancement. Squelching did not require Eve DNA-binding sites on the reporter plasmids but was dependent on the presence of the Eve repression domain. Further support for an in vivo interaction between the Eve repression domain and TBP was derived from a two-hybrid-type assay with transfected cells. Evidence that Eve and TBP interact directly was provided by in vitro binding assays, which revealed a specific protein-protein interaction that required an intact Eve repression domain and the conserved C terminus of TBP. The Eve homeodomain was also required for these associations, suggesting that it may function in protein-protein interactions. We also show that a previously characterized artificial repression region behaves in a manner similar to that of the Eve repression domain, including its ability to squelch TBP-enhanced expression in vivo and to bind TBP specifically in vitro. Our results suggest a model for transcriptional repression that involves an interaction between Eve and TBP.
Mol Cell Biol 1995 Sep
PMID:The transcriptional repressor even-skipped interacts directly with TATA-binding protein. 765 19

SpZ12-1 is a zinc-finger transcription factor. Previous work has indicated that this factor functions late in embryogenesis as a spatial transcriptional repressor. We show here that this factor is present in significant quantities even in unfertilized egg cytoplasm, and in similar quantities in mesenchyme blastula-stage embryo cytoplasm. Taken together with earlier measurements of Calzone and associates, our observations indicate that SpZ12-1 enters the embryonic nuclei between late cleavage and mesenchyme blastula stages. A low-prevalence mRNA encoding SpZ12-1 is also present throughout development. Translation of this mRNA could, however, easily account for the complete complement of SpZ12-1 protein in the embryo, as estimated from its DNA binding activity. SpZ12-1 probably functions at several developmental stages and is evidently of both maternal and embryonic provenance.
Mol Mar Biol Biotechnol 1995 Jun
PMID:Maternal and embryonic provenance of a sea urchin embryo transcription factor, SpZ12-1. 777 32

We report here a characterization of the thyroid hormone receptors (T3Rs), retinoic acid receptors (RARs), and retinoid X receptors (RXRs) by reconstituting their actions in the fission yeast Schizosaccharomyces pombe. S. pombe provide a well defined and readily manipulated genetic background devoid of known endogenous nuclear hormone receptors. All the receptors tested, when introduced exogenously into S. pombe, induced high levels of reporter gene activation in response to physiological concentrations of hormone ligand. In these properties, the S. pombe system exhibits significant advantages over the previously employed Saccharomyces cerevisiae system. Use of the S. pombe system permitted the elucidation of previously undescribed differences in the DNA sequence recognition properties of different isoforms of the RXR and RARs, and the identification of apparently novel forms of response element for RXRs and RARs. Intriguingly, the v-erb A allele of T3R, a transcriptional repressor in vertebrate cells, acts as a transcriptional activator both in S. cerevisiae and in the evolutionarily highly divergent S. pombe, underscoring the importance of cellular factors in the regulation of receptor transcriptional activity.
Mol Endocrinol 1994 Nov
PMID:Reconstitution of thyroid hormone receptor and retinoic acid receptor function in the fission yeast Schizosaccharomyces pombe. 787 15

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