Regulated expression of human growth hormone genes in mouse cells

Involvement of glucocorticoid-induced factor(s) in the stimulation of growth hormone expression in the fetal rat pituitary gland in vitro

The mechanism by which glucocorticoids induce GH expression between embryonic days 18 and 19 (E18-19) in the fetal rat pituitary gland was examined with an in vitro organ culture system. Twenty-four hour incubation of E18 pituitary glands in serum-free medium containing either dexamethasone (DEX, 5-50 nM) or corticosterone (0.55 microM) resulted in a conspicuous accumulation of GH messenger RNA (mRNA), whereas no spontaneous expression of GH mRNA was noted without glucocorticoid. Triiodothyronine (1 nM) alone weakly induced GH mRNA but increased the effect of DEX 2-fold. The GH mRNA accumulation was not observed after 5 or 10 h incubation with DEX. However, a 10-h incubation with DEX followed by 14 h chase incubation without DEX resulted in apparent induction of GH mRNA. The induction of GH mRNA by DEX was completely inhibited by puromycin. These data, taken as a whole, suggest that the induction of GH mRNA by DEX in the fetal pituitary gland is not a direct effect of DEX on the GH gene but is mediated by a factor that is synthesized in the pituitary gland in response to DEX. Both immunoblot and RNase protection assays suggested that this factor is not pit-1, which is known to be required for GH mRNA expression.

Peptidergic transmission: from morphological correlates to functional implications

Like non-peptidergic transmitters, neuropeptides and their receptors display a wide distribution in specific cell types of the nervous system. The peptides are synthesized, typically as part of a larger precursor molecule, on the rough endoplasmic reticulum in the cell body. In the trans-Golgi network, they are sorted to the regulated secretory pathway, packaged into so-called large dense-core vesicles, and concentrated. Large dense-core vesicles are preferentially located at sites distant from active zones of synapses. Exocytosis may occur not only at synaptic specializations in axonal terminals but frequently also at nonsynaptic release sites throughout the neuron. Large dense-core vesicles are distinguished from small, clear synaptic vesicles, which contain "classical' transmitters, by their morphological appearance and, partially, their biochemical composition, the mode of stimulation required for release, the type of calcium channels involved in the exocytotic process, and the time course of recovery after stimulation. The frequently observed "diffuse' release of neuropeptides and their occurrence also in areas distant to release sites is paralleled by the existence of pronounced peptide-peptide receptor mismatches found at the light microscopic and ultrastructural level. Coexistence of neuropeptides with other peptidergic and non-peptidergic substances within the same neuron or even within the same vesicle has been established for numerous neuronal systems. In addition to exerting excitatory and inhibitory transmitter-like effects and modulating the release of other neuroactive substances in the nervous system, several neuropeptides are involved in the regulation of neuronal development.

A 40-amino acid segment of the growth hormone receptor cytoplasmic domain is essential for GH-induced tyrosine-phosphorylated cytosolic proteins

It has become evident that intracellular protein phosphorylation plays an important role in mediating signal transduction of hormones and growth factors, including growth hormone (GH). We have previously demonstrated that GH can stimulate tyrosine phosphorylation of cellular proteins with approximate molecular masses of 95,000 daltons (pp95) in GH-treated 3T3-F442A preadipocytes and in mouse L cells that express recombinant porcine or bovine GH receptors. In the present study, a series of GH receptor (GHR) truncation analogs were constructed and examined for their abilities to induce pp95. The results revealed that a region of approximately 40 amino acids in the porcine GHR cytoplasmic domain is essential for induction of pp95. The results also established that the 115 amino acids (517-638) near the C terminus of porcine GHR are not required for pp95 induction. Moreover, the basal levels of GH-induced pp95 in parental mouse L cells was suppressed by expression of these GHR truncation analogs. This suggests that pp95 induced by GH may be mediated by GHR dimerization and can be inhibited by overexpression of truncated porcine GHRs.

Genetic and molecular analysis of familial isolated growth hormone deficiency

Familial isolated growth hormone deficiency (IGHD) has been associated with complete deletions of the hGH-N gene encoding the pituitary growth hormone (GH) in a large number of cases. However, there is still no alternative empirical explanation for the remaining familial or non-familial IGHD cases. We studied a large kindred including five IGHD-affected first cousins to determine possible IGHD inheritance and whether the hGH-N gene was the cause of IGHD in this pedigree. Sex-linked and autosomal recessive transmission of IGHD in this kindred was rejected. Autosomal dominant inheritance was the most probable explanation according to a model of one locus with two alleles, one being dominant for IGHD, under genetic modifiers or epistasis. Southern blotting analysis (BamHI and HindIII digestions) was used to determine whether the hGH-N gene was present in the patients and their family members. Because we found that the hGH-N gene was present, five restriction fragment length polymorphisms (RFLPs; HincII, MspI-A and B, and BglII-A and B) linked to the hGH-N gene were used to try to identify the possible RFLP haplotypes in the pedigree that could be markers or associated with the abnormal hGH-N alleles responsible for IGHD. From the haplotype analysis, it appeared that other genes not linked to the hGH-N gene cluster were the cause of the IGHD phenotype in this kindred. An alternative conclusion could be that the hGH-N gene was responsible for IGHD in this kindred, if a mutation (gene conversion) at the MspI-B site or a reciprocal recombination event between the HincII and MspI-B sites occurred from generation P to F1 and a similar event took place from generation F1 to F2. The non-significant GH responses of patients to the growth releasing factor test confirmed that the hGH-N gene structural product or some step in its regulation was responsible for causing IGHD in this kindred. We suggest that genetic micromutations in the hGH-N gene are present and are responsible for IGHD. We developed a method using the polymerase chain reaction to amplify a 790-bp fragment of the hGH-N gene. The fragment spanned from the second part of the dyad symmetry region in the non-transcribed 5' end of the hGH-N gene to 9 bp before the alternative splice-acceptor site in exon 3. The expected fragment was verified by its digestion with seven diagnostic restriction endonucleases (BamHI, FspI, PstI, NdeI, BssHII, BglII and HincII).(ABSTRACT TRUNCATED AT 400 WORDS)

Regulation of albumin gene expression in hepatoma cells of fetal phenotype: dominant inhibition of HNF1 function and role of ubiquitous transcription factors

Two widely used hepatoma cell lines, mouse BW1J and human HepG2, express gene products characteristic of fetal hepatocytes, including serum albumin, whereas reporter genes driven by the albumin promoter are expressed at very low levels compared with highly differentiated hepatoma cells. We have investigated the low albumin promoter activity in BW1J cells to understand differences in liver gene regulation between fetal and adult cells. Addition of the albumin upstream enhancer, or any other fragment of the albumin gene, failed to modify expression of the transfected promoter in BW1J cells. Analysis of cis elements of the albumin promoter showed that, in contrast to highly differentiated H4II cells, in BW1J cells the activity largely depends on ubiquitous transcription factors. Both BW1J and HepG2 cells produce the liver-enriched transcription factor HNF1; dimerization and DNA binding properties are identical to those of liver HNF1, yet the protein fails to show the anticipated transcriptional stimulatory activity. A transfected HNF1 expression vector strongly trans-activates the albumin promoter in HepG2 but only weakly in BW1J cells, and in hybrids (BW1J x Fao), inefficient HNF1 function is dominant. We conclude that hepatoma cells of the fetal phenotype are deficient in the use of HNF1 to drive transcription of the albumin gene and that they harbor a dominant modulator of HNF1 function.

Selection of mouse cells with amplified metallothionein genes retaining their glucocorticoid inducibility

Two new mouse cell mutants, resistant to either 80 or 100 mM CdCl2, were isolated to study the regulation of transcription by the glucocorticoid hormones. Their metallothionein mt-1% and mt-2+ genes were amplified coordinately to a maximum of 30 copies per cell. By Southern blot analysis, no gross rearrangement was detectable near the mt+ loci. Contrary to other mutants previously isolated, the metallothionein-specific mRNAs of these mutants are inducible by dexamethasone.

Major chromatin changes accompany extinction of alpha-fetoprotein gene in hepatoma x fibroblast hybrids

The sensitivity of the alpha-fetoprotein (AFP) gene to digestion by the enzyme DNaseI, and the presence of hypersensitive sites in the 5' region of this gene, were examined in hepatoma x fibroblast hybrid cells that exhibit extinction of AFP gene expression. Major changes occur in the extinguished gene, i.e., loss of long-range sensitivity to DNase digestion and of the hypersensitive sites. In this respect, the extinguished gene resembles the corresponding silent gene present in fibroblasts, but differs from the silent gene present in normal adult hepatocytes. These observations suggest that extinguisher factors acting on the AFP gene alter its conformation.

Eukaryotic transcription factors

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DNA methylation and chromatin structure: a view from below

An understanding of the function and control of DNA methylation in eukaryotes has been elusive. Studies of Neurospora crassa have led to a model that accounts for the chromosomal distribution of methylation and suggests a basic function for DNA methylation in eukaryotes.

Chromatin structure as a molecular marker of cell lineage and developmental potential in neural crest-derived chromaffin cells

Adrenal medullary chromaffin cells have the capacity to transdifferentiate into sympathetic neurons. We show here that SCG10, a neural-specific gene that is induced during this transdifferentiation, is maintained in mature chromaffin cells in a potentially active chromatin conformation marked by two DNAase I hypersensitive sites (HSS). A low level of transcription is associated with this conformation. The HSS are also present in neurons expressing high levels of SCG10, but not in nonneuronal cells. Experiments using transgenic mice suggest that these HSS can in principle form in any cell type expressing the gene, but that a cis-repression mechanism normally prevents their assembly in nonneuronal cells. We suggest that the SCG10 HSS may represent a molecular marker of the lineage and phenotypic plasticity of chromaffin cells.

Highly inducible expression from vectors containing multiple GRE's in CHO cells overexpressing the glucocorticoid receptor

A conditional glucocorticoid-responsive expression vector system is described for highly inducible expression of heterologous genes in mammalian cells. This host-vector system requires high level expression of the glucocorticoid receptor (GR) protein in the host cell and multiple copies of the receptor binding site within the expression vector. Transfection and selection of Chinese hamster ovary cells with expression vectors encoding the rat GR yielded cell lines which express functional receptor at high levels. Insertion of multiple copies of the MMTV enhancer (glucocorticoid responsive element, GRE) into an Adenovirus major late promoter (AdMLP) based expression vector yielded greater than 1000-fold inducible expression by dexamethasone (dex) in transient DNA transfection assays. The induced expression level was 7-fold greater than that obtained with an AdMLP based vector containing an SV40 enhancer, but lacking GRE's. Vectors containing the SV40 enhancer in combination with multiple GRE's exhibited elevated basal expression in the absence of dex, but retained inducibility in both transient assays and after integration and amplification in the CHO genome. This expression system should be of general utility for studying gene regulation and for expressing heterologous genes in a regulatable fashion.

A modified primer extension procedure for specific detection of DNA-RNA hybrids on nylon membranes

We have developed a modified primer extension procedure for specific detection of mRNA. Alkali-fragmented total cellular RNA or some RNA fraction is hybridized to single-stranded or double-stranded M13 DNA containing the insert of interest which is immobilized on nylon membranes. Hybridized RNA is then detected by incubation of membranes with Escherichia coli RNase H and DNA polymerase I. RNase H is used for nicking the RNA in the hybrids. The resulting 3'-OH groups can subsequently be used by DNA polymerase I to synthesize a labeled complementary strand. The method described is both relatively fast and sensitive and particularly useful for screening large numbers of DNA clones for their representation in RNA populations. Using total cellular RNA as hybridization probe and single-stranded M13 DNA as template as low as 0.25 ng of a specific mRNA was detected (2.5-fold background) when adding 1 microCi [3H]dCTP or 2.5 microCi [32P]d-CTP alternatively as radioactive precursor for the labeling reaction. The detection limit increased to 1 ng (2-fold background) with denatured replicative form double-stranded M13 DNA as template.

DNA regulatory elements for steroid hormones

Gene regulation by steroid hormones is mediated through an interaction of the hormone receptors with DNA regulatory sequences called hormone regulatory or responsive elements (HRE). An analysis of the HRE's in the DNA of mouse mammary tumour provirus, human metallothionein IIA gene, chicken lysozyme gene, chicken and Xenopus vitellogenin genes, growth hormones genes, Moloney murine sarcoma provirus, rabbit uteroglobin gene, rat tyrosine aminotransferase gene, rat tryptophan oxygenase gene and rat acidic glycoprotein gene, yields the following consensus for positively modulated glucocorticoid responsive elements (GRE): 5'-GGTACAnnnTGTTCT-3'. This element can also mediate induction by progesterone and probably by androgens, but not by estrogens. Detailed analysis of the DNA protection pattern suggests that a dimer of the hormone receptor interacts with this palindromic 15-mer. In genes that are negatively regulated by glucocorticoids an imperfect copy of the GRE is found, and repression is probably due to competition between hormone receptor and other transcription factors or enhancer binding proteins for binding to overlapping DNA sequences. The receptors without bound hormone are able to interact specifically with DNA in vitro, but binding of hormone is needed for transcriptional activation in vivo. This could be due, at least in part, to changes in the rate parameters of the receptor-DNA interaction induced by binding of the hormone to the receptor. The possible role of precise chromatin organization in glucocorticoid induction is discussed on the basis of the nucleosome phasing found in the LTR region of mouse mammary tumour virus.

Structure of human angiotensinogen gene

A cDNA clone encoding human angiotensinogen was isolated from a cDNA library prepared from human liver mRNA and used to isolate the angiotensinogen gene. The complete exon sequence of this gene together with extensive intron and flanking sequences are reported. The human angiotensinogen gene contains five exons interrupted by four intervening sequences. We compared the intron-exon structure of this human gene with that of the rat gene or the genes coding for proteins such as alpha 1-antitrypsin and antithrombin III, whose primary amino acid sequences show similarities. The human angiotensinogen gene shows identical organization with the alpha 1-antitrypsin gene, but is different from the antithrombin III gene. The 5'-flanking sequence (-500 to -1 bp) of the human angiotensinogen gene was examined for hormone regulatory elements (HRE), which may be implicated in the interaction with the hormone receptor complexes.

Analysis of cis- and trans-acting elements in the hormone-sensitive human somatotropin gene promoter

The expression of the human growth hormone (hGH) gene is regulated by several transcription factors. Basal level transcription factors include TATA box-binding proteins, Sp1, USF and CTF/NF-1. The hGH gene is expressed only in pituitary somatotrophs, and the pituitary-specific GHF-1/Pit-1 protein is a potent transcriptional stimulator. Glucocorticoid and thyroid hormones, insulin, and GHRH which acts via cAMP, also control hGH gene transcription via trans-acting factors some of which are the hormone receptors themselves. Three transcription initiation sites were detected when hGH gene promoter activity was studied in a cell-free system. This system enabled us to delineate the respective role of some transcription factors and to propose a model that accounts for the basal, pituitary-specific, and hormonal control of hGH gene expression.

The rat albumin gene promoter is appropriately regulated in transient but not in stable transfections

The tissue-specific expression of the liver-specific rat albumin gene promoter was examined after transfer to various hepatic and non-hepatic cell lines. A 402 base pair sequence from the albumin gene 5' flank enabled a fused reporter chloramphenicol acetyltransferase gene to be expressed in rat hepatoma cell lines but not in fibroblast lines or dedifferentiated hepatoma cells. However, when this same construct was analyzed in permanently transfected cell populations, it was expressed equally well in differentiated and dedifferentiated hepatoma cells and in two of three fibroblast lines tested. The inappropriate expression of the albumin promoter was also seen using the HSV tk gene and the E. coli gpt gene as reporters, and when assayed by colony formation in HAT medium (tk gene) or by S1 protection of transcripts in cotransfected populations (tk and gpt genes). These results show that gene regulatory elements can behave differently in transient vs. stable transfections, and suggest that chromosomal integration can provide long range positive influences on gene expression.

Conditional enhancement of liver-specific gene transcription

We sought to develop a cell line in which liver-specific transcription could be induced at will, to facilitate the study of factors that cause hepatocyte-specific transcription of the serum albumin gene in mice. We therefore created the H2.35 cell line from mouse hepatocytes infected with a temperature-sensitive strain of simian virus 40. During routine propagation at the permissive temperature, H2.35 cells exhibit extremely low levels of albumin transcription and mRNA. Albumin mRNA increases at least 100-fold when H2.35 cells are cultured at the restrictive temperature and in serum-free medium on a collagen substratum; the two latter conditions maintain the differentiated state of primary hepatocyte cultures. Although a major cause of the mRNA increase is posttranscriptional, the transcription rates of albumin and other liver-specific genes increase significantly. Transient-transfection experiments demonstrated that an induction of transcription is caused by activation of an albumin upstream sequence that was previously shown to enhance liver-specific transcription in transgenic mice. Thus, hepatocyte differentiation appears to be maintained in part by extracellular signals that stimulate the activity of a tissue-specific enhancer element.

Functional probing of glucocorticoid receptor structure

The glucocorticoid receptor (GR) consists of three functional domains. The steroid-binding domain is situated at the C-terminal end and N-terminal sequence analysis has identified the border of this domain at residue 518. The DNA-binding domain is central and lies between residues 414 and 517. The remaining N-terminal half of the protein constitutes the third domain. Probing of the steroid-receptor interaction by affinity-labelling and radiosequence analysis has identified three steroid-binding amino acid residues, Met-622, Cys-656 and Cys-754.

In vitro activation of rat cardiac glucocorticoid antagonist- versus agonist-receptor complexes

The synthetic antiglucocorticoid RU 38486 interacts with cardiac cytoplasmic glucocorticoid receptors and competes for in vitro binding with the potent agonist triamcinolone acetonide. In addition to binding to receptors with high affinity, RU 38486 also facilitates the in vitro conformational change in the receptor which is a consequence of the physiologically relevant activation step during which the receptor is converted from a non DNA- to a DNA-binding form. This ability of RU 38486 to promote receptor activation is reflected by both the appropriate shift in the elution profile of [3H]RU 38486-receptor complexes from DEAE-cellulose as well as by an increased binding of these complexes to DNA-cellulose. Although less effective than triamcinolone acetonide, RU 38486 promotes in vitro receptor activation under a variety of experimental conditions, including incubation of labeled cardiac cytosols at 25 degrees C for 30 min or at 15 degrees C for 30 min in the presence of 5 mM pyridoxal 5'-phosphate. Once thermally activated, the cardiac [3H]triamcinolone acetonide and [3H]RU 38486-receptor complexes bind to nonspecific DNA-cellulose with the same relative affinities, as evidenced by the fact that 50% of both activated complexes are eluted at approx. 215-250 mM NaCl. Thus, this pure antiglucocorticoid does promote, at least to some extent, many of the crucial in vitro events including high-affinity binding, activation, and DNA binding which have been shown to be required to elicit a physiological response in vivo.

The steroid and thyroid hormone receptor superfamily

Analyses of steroid receptors are important for understanding molecular details of transcriptional control, as well as providing insight as to how an individual transacting factor contributes to cell identity and function. These studies have led to the identification of a superfamily of regulatory proteins that include receptors for thyroid hormone and the vertebrate morphogen retinoic acid. Although animals employ complex and often distinct ways to control their physiology and development, the discovery of receptor-related molecules in a wide range of species suggests that mechanisms underlying morphogenesis and homeostasis may be more ubiquitous than previously expected.

Generation of high specificity of effect through low-specificity binding of proteins to DNA

It is proposed that proteins can bind with relatively low-affinity and specificity to multiple sites, defined as sequence motifs, on polynucleotide chains, and that such binding can collectively be turned into high-affinity, high-specificity binding through cooperative effects, especially when the sequence motifs recur periodically. The selection of individual nucleotides has in general been thought to be the condition of the existence and conservation of function in most of the noncoding sequences. This condition seems unnecessary. Calculations are presented as a step in the direction of giving credibility to a model of stable gene repression.

In vivo system for characterizing clonal variation and tissue-specific gene regulatory factors based on function

The inducibility of stably transfected alpha-cardiac actin genes differs among L cell clones. We examined the ability of muscle-specific factors to induce the expression of the human muscle alpha-cardiac actin gene promoter when stably transfected into mouse fibroblast L cells. This promoter is transcriptionally active in L cells at a low level, 2-5% of that in transfected muscle cells. Upon fusion with muscle cells to form heterokaryons, expression of the transfected alpha-cardiac actin gene promoter can be induced. However, induction is observed with only 10% of transfected L cell clones and the magnitude of this induction varies between 5- and 50-fold. These properties of the transfected L cell appear to be stably inherited. Our results are consistent with the hypothesis that muscle cells contain factors capable of increasing the transcription of the transfected gene, but that differences among L cell clones, possibly in the site of integration in the genome, determine the extent to which the gene can respond. By fusion into heterokaryons, transfectants with responsive genes can be identified. Such clones should prove useful in determining the basis for clonal variation. In addition, they provide an in vivo system for isolating functionally active tissue-specific transcription factors and the genes that encode them.

Expression of transfected vimentin genes in differentiating murine erythroleukemia cells reveals divergent cis-acting regulation of avian and mammalian vimentin sequences

We studied the expression of transfected chicken and hamster vimentin genes in murine erythroleukemia (MEL) cells. MEL cells normally repress the levels of endogenous mouse vimentin mRNA during inducermediated differentiation, resulting in a subsequent loss of vimentin filaments. Expression of vimentin in differentiating MEL cells reflects the disappearance of vimentin filaments during mammalian erythropoiesis in vivo. In contrast, chicken erythroid cells express high levels of vimentin mRNA and vimentin filaments during terminal differentiation. We demonstrate here that chicken vimentin mRNA levels increase significantly in differentiating transfected MEL cells, whereas similarly transfected hamster vimentin genes are negatively regulated. In conjunction with in vitro nuclear run-on transcription experiments, these results suggest that the difference in vimentin expression in avian and mammalian erythropoiesis is due to a divergence of cis-linked vimentin sequences that are responsible for transcriptional and posttranscriptional regulation of vimentin gene expression. Transfected chicken vimentin genes produce functional vimentin protein and stable vimentin filaments during MEL cell differentiation, further demonstrating that the accumulation of vimentin filaments is determined by the abundance of newly synthesized vimentin.

Muscle cell components dictate hepatocyte gene expression and the distribution of the Golgi apparatus in heterokaryons

Major changes in cytoarchitecture and gene expression were induced in short-term heterokaryons. When human hepatocytes were fused with mouse muscle cells, the hepatocyte Golgi apparatus changed from its usual polar location to a uniformly circumnuclear location typical of striated muscle. Human liver albumin ceased to be expressed, and expression of the human muscle cell-surface antigen 5.1H11 was induced without DNA replication or cell division. Coexpression of liver and muscle proteins was rarely observed. These novel findings provide insight into the regulation of gene expression and the targeting and localization of organelles with a central role in cell polarity, intracellular transport, and secretion.

A 13 bp palindrome is a functional estrogen responsive element and interacts specifically with estrogen receptor

Sequences located upstream of the transcription initiation site of the Xenopus vitellogenin A2 (vit A2) gene contain a hormone dependent enhancer that confers estrogen control to the heterologous thymidine kinase (tk) promoter. As a minimal functional estrogen responsive element (ERE), we have defined the 13 bp palindrome GGTCACAGTGACC. This ERE binds estrogen receptor preferentially in vitro. Although the ERE shares some structural features with the glucocorticoid responsive element (GRE) it is distinct from this element since it neither binds glucocorticoid receptor in vitro nor does it confer glucocorticoid inducibility to a fusion gene. Point mutations within the ERE decrease its affinity for the estrogen receptor and result in a complete loss of estrogen inducibility.

Differential requirements for cellular enhancers in stem and differentiated cells

Multiple cis-acting regulatory elements consisting of three cellular enhancers and a proximal promoter element have been identified in the region upstream of the mouse alpha-fetoprotein (AFP) gene. We examined the role of these sequences during differentiation by the introduction of modified AFP genes into cells at different stages of commitment to its expression. Modified AFP genes introduced stably into F9 embryonal carcinoma stem cells by DNA transfection were silent until activated by treatment with retinoic acid to form visceral endoderm. Their activation required the presence of both the enhancer and proximal promoter domains. The introduced genes activated simultaneously with the endogenous AFP genes, but reached maximal levels of expression more rapidly, suggesting a greater initial accessibility to transcription factors. In contrast, when modified AFP genes were stably introduced into HepG2 cells, a human hepatoma cell line that constitutively expresses the AFP gene, the proximal promoter sequences were sufficient to direct a low level of expression. The absolute requirement for the AFP enhancers in F9 cells but not in HepG2 cells supports a model by which there is an obligate requirement for enhancers during differentiation in addition to their role in enhancing gene expression after differentiation.

Developmentally regulated expression of a truncated myosin light-chain 1F/3F gene

Fast skeletal muscle myosin light-chain I (MLC1f) and myosin light-chain 3 (MLC3f) mRNAs are both derived from a single rat MLC1/3f gene. MLC1f mRNA begins at the first exon of the gene, while MLC3f mRNA begins with exon 2, 10 kilobases downstream. Both mRNAs require alternate splicing of internal exons for accurate expression. We showed that a truncated rat MLC1f/3f gene lacking exon 1 and the first 6.3 kilobases of the intron separating exons 1 and 2 produced rat MLC3f mRNA in a developmentally regulated manner after introduction into myogenic mouse cells, thus demonstrating in vivo the presence of a functional promoter associated with exon 2. Correctly spliced mRNA was produced after transfer of this truncated gene into both myogenic and nonmyogenic cells, indicating that the pattern of splicing of this complex transcript was due to a structural features of the RNA and was independent of cell type.

Growth hormone gene expression in myoepithelial cells directed by various eucaryotic transcriptional regulatory sequences

Mammary gland myoepithelial cells were isolated from cattle and cell lines were established. Cells were plated onto tissue culture dishes with or without collagen. Cells were transfected with bovine growth hormone rDNA containing one of the following eucaryotic transcriptional regulatory sequences: human cytomegalovirus immediate early promoter, simian virus 40 early promoter, mouse metallothionein I promoter and the Rous sarcoma virus long terminal repeat. These sequences were evaluated for their ability to direct recombinant bovine growth hormone DNA expression in myoepithelial cells. The most effective transcriptional regulatory sequences were the cytomegalovirus immediate early and simian virus 40 early promoters.

Expression of transfected vimentin genes in differentiating murine erythroleukemia cells reveals divergent cis-acting regulation of avian and mammalian vimentin sequences

We studied the expression of transfected chicken and hamster vimentin genes in murine erythroleukemia (MEL) cells. MEL cells normally repress the levels of endogenous mouse vimentin mRNA during inducermediated differentiation, resulting in a subsequent loss of vimentin filaments. Expression of vimentin in differentiating MEL cells reflects the disappearance of vimentin filaments during mammalian erythropoiesis in vivo. In contrast, chicken erythroid cells express high levels of vimentin mRNA and vimentin filaments during terminal differentiation. We demonstrate here that chicken vimentin mRNA levels increase significantly in differentiating transfected MEL cells, whereas similarly transfected hamster vimentin genes are negatively regulated. In conjunction with in vitro nuclear run-on transcription experiments, these results suggest that the difference in vimentin expression in avian and mammalian erythropoiesis is due to a divergence of cis-linked vimentin sequences that are responsible for transcriptional and posttranscriptional regulation of vimentin gene expression. Transfected chicken vimentin genes produce functional vimentin protein and stable vimentin filaments during MEL cell differentiation, further demonstrating that the accumulation of vimentin filaments is determined by the abundance of newly synthesized vimentin.

ATP-induced activation of purified rat hepatic glucocorticoid receptors

We have utilized unactivated rat hepatic glucocorticoid receptor complexes purified to near homogeneity by a three-step scheme which includes affinity chromatography, gel filtration and anion exchange chromatography, to demonstrate for the first time that ATP can interact directly with the receptor protein in stimulating activation. This stimulation is reflected by an increase in DNA-cellulose binding as well as by a shift in the elution profile of the purified receptor complexes from DEAE-cellulose. A concentration of 10 mM Na2MoO4 is able to block both of these effects. ATP stimulates activation in a dose-dependent manner (maximally at 10 mM), and elicits maximal activation within 30 min at 15 degrees C. There appears to be no nucleotide specificity since GTP, CTP and UTP, as well as ADP and GDP also stimulate activation. All of these observations closely parallel data obtained from similar activation experiments performed with crude rat hepatic receptors. ATP does not appear to stimulate activation of receptors (crude or purified) by initiating a phosphorylation reaction since hydrolysis-resistant analogues of ATP are also effective. Pyrophosphate (PPi) is as effective as ATP in promoting receptor activation, since it elicits similar increases in DNA-cellulose binding, shifts in elution patterns from DEAE-cellulose, and dose-response relationships. None of the compounds tested stimulate activation indirectly by pH or ionic strength effects. Despite the fact that high ATP concentrations (3-4-fold higher than those present in vivo) are necessary to stimulate maximal activation, a physiological role of ATP in directly regulating in vivo activation of glucocorticoid receptors cannot be ruled out.

Developmentally regulated expression of a truncated myosin light-chain 1F/3F gene

Fast skeletal muscle myosin light-chain I (MLC1f) and myosin light-chain 3 (MLC3f) mRNAs are both derived from a single rat MLC1/3f gene. MLC1f mRNA begins at the first exon of the gene, while MLC3f mRNA begins with exon 2, 10 kilobases downstream. Both mRNAs require alternate splicing of internal exons for accurate expression. We showed that a truncated rat MLC1f/3f gene lacking exon 1 and the first 6.3 kilobases of the intron separating exons 1 and 2 produced rat MLC3f mRNA in a developmentally regulated manner after introduction into myogenic mouse cells, thus demonstrating in vivo the presence of a functional promoter associated with exon 2. Correctly spliced mRNA was produced after transfer of this truncated gene into both myogenic and nonmyogenic cells, indicating that the pattern of splicing of this complex transcript was due to a structural features of the RNA and was independent of cell type.

In vitro processing of the human growth hormone primary transcript

To study the sequence of events during processing of primary RNA transcripts and to gain more insight into the mechanism of splice site selection, the in vitro processing of a 2.5 kb human growth hormone (hGH) pre-mRNA containing four introns and an alternative 3' splice site for intron B was analysed. In order to process the hGH pre-mRNA the preparation of the HeLa cell nuclear extract had to be modified, indicating differences in factor requirement for processing this pre-mRNA. After an unusual long lag phase of one hour splicing intermediates begin to accumulate. Intron A and D are removed with correct ligation of exons 1/2 and 4/5. Most splice sites are used--albeit with variable efficiencies--except the splice sites surrounding exon 3 and the 3' alternative splice site within exon 3; as a consequence "exon skipping" events take place. Using a pre-mRNA containing only intron B neither the 5' nor the 3' splice site is cleaved, indicating that the 3' splice site of intron B is not recognized. The results show that splice sites can differ considerably in their requirement for splicing factors.

Molecular genetics of androgen-dependent and -independent expression of mouse sex-limited protein

Genes of the mouse S locus encoding C4 (the fourth component complement) and Slp (sex-limited protein) show extensive homology but are distinct in their function and regulation. In some mouse strains, such as B10.D2, Slp is androgen regulated, whereas in others, such as B10.W7R, expression of Slp is constitutive. We have previously shown that the B10.W7R strain has multiple Slp genes. In this report, we present the structure of the single C4 and four Slp genes of the B10.W7R S locus and compare the upstream flanking regions by partial sequence analysis and function in transfection assays. Of the four Slp genes, three (Slpw7.A, Slpw7.B, and Slpw7.C) have upstream and promoter regions very similar to those of C4. The fourth Slp gene (Slpw7.D) is instead virtually identical to the androgen-regulated allele (Slpd from the B10.D2 mouse) in upstream regions. In particular, far-upstream sequences from both Slpd and Slpw7.D render the bacterial chloramphenicol acetyltransferase gene hormonally responsive upon transfection into mammary carcinoma cell lines. The upstream sequences between 2 to 3 kilobases of the Slp promoter initiate transcription from multiple sites when fused proximal to the chloramphenicol acetyltransferase gene, and these transcripts are threefold more abundant in the presence of androgen. This behavior is similar for Slpd and Slpw7.D, which suggests that Slpw7.D may be androgen regulated but that this is masked in vivo by constitutive expression of the other Slp genes. Nonhomologous recombination is implicated not only in expanding the copy number of C4 and Slp genes in the B10.W7R mouse but also in creating hybrid genes with regulatory features of C4 and structural features of Slp.

Glucocorticoids enhance stability of human growth hormone mRNA

We have studied the control of expression of the human growth hormone (hGH) gene introduced into the chromosomes of mouse fibroblasts. Cell lines transformed with the hGH gene expressed low levels of intact hGH mRNA and secreted hGH protein into the medium. Although the level of expression of hGH mRNA was low, the gene remained responsive to induction by glucocorticoid hormones. To localize the sequences responsible for induction and to determine the mechanism by which these cis-acting sequences enhance gene expression, we have constructed a series of fusion genes between the hGH gene and the herpes simplex virus (HSV) thymidine kinase (tk) gene. We have demonstrated that a fusion gene in which hGH cDNA is flanked at its 5' terminus by an HSV tk promoter and is flanked at its 3' terminus by 3' HSV tk DNA remains inducible by glucocorticoids. Our studies indicate that the hGH exons contain sequences which are responsible for glucocorticoid hormone induction. Pulse-chase experiments, in vitro nuclear transcription, and approach to steady-state measurements indicate that the mechanisms responsible for induction of the hGH cDNA fusion gene operate posttranscriptionally to enhance the stability of hGH mRNA. Moreover, this increased stability was associated with an increase in the length of the 3' poly(A) tail on hGH mRNA.

Human cardiac myosin heavy chain genes and their linkage in the genome

Human myosin heavy chains are encoded by a multigene family consisting of at least 10 members. A gene-specific oligonucleotide has been used to isolate the human beta myosin heavy chain gene from a group of twelve nonoverlapping genomic clones. We have shown that this gene (which is expressed in both cardiac and skeletal muscle) is located 3.6kb upstream of the alpha cardiac myosin gene. We find that DNA sequences located upstream of rat and human alpha cardiac myosin heavy chain genes are very homologous over a 300bp region. Analogous regions of two other myosin genes expressed in different muscles (cardiac and skeletal) show no such homology to each other. While a human skeletal muscle myosin heavy chain gene cluster is located on chromosome 17, we show that the beta and alpha human cardiac myosin heavy chain genes are located on chromosome 14.

Cell cycle regulation of a mouse histone H4 gene requires the H4 promoter

The mouse histone H4 gene, when stably transformed into L cells on the PSV2gpt shuttle vector, is cell cycle regulated in parallel with the endogenous H4 genes. This was determined in exponentially growing pools of transformants fractionated into cell cycle-specific stages by centrifugal elutriation, a method for purifying cells at each stage of the cell cycle without the use of treatments that arrest growth. Linker additions in the 5' noncoding region of the H4 RNA or in the coding region of the gene did not affect the cell cycle-regulated expression of the modified H4 gene even though the overall level of expression was altered. However, replacing the H4 promoter with the human alpha-2 globin promoter, so that the histone transcript produced by the chimeric gene remains essentially unchanged, resulted in the constitutive expression of H4 mRNA during all phases of the cell cycle with no net increase in H4 mRNA levels during the G1-to-S transition. From these results we conclude that all the information necessary for the cell cycle-regulated expression of the H4 gene is contained in the 5.2-kilobase subclone used in these studies with 228 nucleotides of 5'-flanking DNA and that the increase in H4 mRNA during the G1-to-S transition in the cell cycle is mediated by the H4 promoter and not by the increased stability of the H4 RNA.

A study of mechanisms of carcinogenesis by gene transfer of oncogenes into mammalian cells

Recent work has shown that individual oncogenes can be involved in several steps of the multistage process of carcinogenesis. Evidence comes from studies on the expression of cloned oncogenes transfected into early passage mammalian cells and into immortalized non-tumorigenic cell lines. Transformation of epithelial cells in vitro with cloned cellular and viral oncogenes is of special interest since most human tumors are of epithelial origin. An important aspect of cell transformation by oncogenes is the induction of transforming growth factors (TGFs). The role of oncogenes in differentiation has been examined by introducing the human myc and mutant T24 Ha-ras1 genes into mouse erythroleukemic cells which were then induced to differentiate. In several clones differentiation was inhibited by myc or ras genes. Studies are reported using oncogenes linked to transcriptional control elements that can be regulated in vitro, such as the human metallothionein (hMT-IIA) promoter region, by cadmium and dexamethasone. Phenotypic properties of transfectants including morphological transformation, anchorage dependence and TGF release are shown to be dependent on the regulators of the hMT-IIA control region.

Molecular genetics of androgen-dependent and -independent expression of mouse sex-limited protein

Genes of the mouse S locus encoding C4 (the fourth component complement) and Slp (sex-limited protein) show extensive homology but are distinct in their function and regulation. In some mouse strains, such as B10.D2, Slp is androgen regulated, whereas in others, such as B10.W7R, expression of Slp is constitutive. We have previously shown that the B10.W7R strain has multiple Slp genes. In this report, we present the structure of the single C4 and four Slp genes of the B10.W7R S locus and compare the upstream flanking regions by partial sequence analysis and function in transfection assays. Of the four Slp genes, three (Slpw7.A, Slpw7.B, and Slpw7.C) have upstream and promoter regions very similar to those of C4. The fourth Slp gene (Slpw7.D) is instead virtually identical to the androgen-regulated allele (Slpd from the B10.D2 mouse) in upstream regions. In particular, far-upstream sequences from both Slpd and Slpw7.D render the bacterial chloramphenicol acetyltransferase gene hormonally responsive upon transfection into mammary carcinoma cell lines. The upstream sequences between 2 to 3 kilobases of the Slp promoter initiate transcription from multiple sites when fused proximal to the chloramphenicol acetyltransferase gene, and these transcripts are threefold more abundant in the presence of androgen. This behavior is similar for Slpd and Slpw7.D, which suggests that Slpw7.D may be androgen regulated but that this is masked in vivo by constitutive expression of the other Slp genes. Nonhomologous recombination is implicated not only in expanding the copy number of C4 and Slp genes in the B10.W7R mouse but also in creating hybrid genes with regulatory features of C4 and structural features of Slp.

Thyroid hormone regulates expression of a transfected alpha-myosin heavy-chain fusion gene in fetal heart cells

In ventricular muscle, 3,5,3'-triiodo-L-thyronine (T3) stimulates the expression of the alpha-myosin heavy-chain (alpha-MHC) gene. To test for gene elements required for induction, a fragment of the alpha-MHC gene containing 2.9 kilobases of 5' flanking sequences and 420 base pairs of DNA 3' to the transcription initiation site was linked to the coding sequences of the bacterial chloramphenicol acetyltransferase (CAT) gene. The alpha-MHC fusion gene was introduced into primary cultures of fetal rat heart myocytes. Induction of the transfected gene was monitored by assaying CAT activity while endogenous alpha-MHC mRNA expression was measured by using a synthetic oligonucleotide probe complementary to sequences in the 3' untranslated region of the mRNA. Without T3, CAT activity was only slightly greater than background. When T3 at a final concentration of 10 nM was added to the cultures, CAT activity was increased 8-fold by 48 hr. The response time and doses of T3 required for induction of CAT activity and alpha-MHC mRNA in transfected cells were similar, suggesting that the synthetic and endogenous genes may have a common mechanism of control. When simian virus 40 enhancer and early promoter sequences were included in the construct, CAT activity was constitutively expressed, but it could be increased 7-fold by the addition of T3. Several deletions were introduced into the 5' flanking sequences of the alpha-MHC fragment and the effects on induction of CAT activity were examined. Progressive deletions of 5' sequences from positions -947 to -374 reduced but did not eliminate induction of CAT activity, suggesting that more than one region may be required for optimal induction by thyroid hormone. The results indicate that DNA sequences required for efficient induction by T3 are present in the 5' flanking sequences of the alpha-MHC gene.

Regulated expression of human atrial natriuretic polypeptide gene in mouse L cells

To investigate whether the human atrial natriuretic polypeptide (hANP) gene is responsive to glucocorticoid, we co-introduced the hANP gene (with SV40 enhancer) with HSV-tk gene into mouse tk- L cells. The transformants with hANP gene with SV40 enhancer expressed hANP specific RNAs. The administration of 1 microM dexamethasone reduced the expressed hANP specific RNAs, especially those that had a physiological initiation site. These results suggest that the hANP gene is really a glucocorticoid responsive gene and may be negatively regulated by glucocorticoid.