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The first intron of the human Pro alpha 1(I) collagen gene contains an orientation-dependent enhancer composed of both positive and negative cis-acting elements involved in the transcriptional regulation of this gene. Deletion of a 360 bp Sau 3A intronic fragment spanning nucleotide +494 to +854 (S360) resulted in dramatic down-regulation of pCOL-KT (Thompson et al., J Biol Chem 266: 2549-2556, 1991). Using a DNaseI protection assay, we demonstrate a single footprint located at +590 to +615 in the S360 fragment; nuclear extracts prepared from mesenchymal and nonmesenchymal cells exhibited similar binding characteristics. A double stranded oligonucleotide representing a consensus Ap-1 binding sequence competed with S360 for binding. In contrast to what occurred in response to S360 deletion which was always accompanied by reduced expression, the deletion of the Ap-1 binding site (+598 to +off) caused either increased or decreased expression of the reporter gene depending on the target cell. Site-directed mutations in the Ap-1-like cis-element of Pro alpha 1(I) were also tested in transient expression assays. Consistent with the paradoxical results of Ap-1 deletion, we observed that the functional consequences of mutations in the Ap-1 site also varied in different cells. In A204 cells, one point mutation, which resulted in the loss of protein binding to S360, led to increased CAT activity while another point mutant, which retained binding of the Ap-1 like trans-acting factor(s), showed decreased CAT expression. The effects of these two mutations in the HFL-1 cells were exactly opposite of what was seen for A204 cells. Based on these observations, we postulate that the Ap-1 site plays a critical role in the transcriptional activity of the human Pro alpha 1(I) gene. The implications of an apparently dual mode of regulation through a single cis-regulatory element are discussed.
Mol Cell Biochem 1992 Dec 16
PMID:An AP-1-like motif in the first intron of human Pro alpha 1(I) collagen gene is a critical determinant of its transcriptional activity. 129 7

A full-length chinook salmon (Oncorhynchus tschawytscha) prolactin (PRL) gene, the first genomic clone of a teleost prolactin, was isolated and fully sequenced. The chinook PRL genomic sequence spans 6.4 Kb, including 2.4 Kb of 5' flanking sequence, 3.0 Kb representing the five exons and four introns of the complete PRL gene, and 0.9 Kb of 3' flanking sequence. The transcriptional start site of the PRL gene was mapped through the agreement of both primer extension and S1 nuclease protection assay. The 5' flanking region of the PRL gene was searched for potential cis-acting elements based on the consensus binding site of trans-acting factor Pit-1, known to be involved in PRL gene expression in mammals. Functional analysis of PRL promoter by the transient transfection of several PRL promoter/CAT chimeric plasmids into rainbow trout pituitary cells suggests a functional PRL promoter whose cell-specific activity is most likely governed by both positive and negative mechanisms.
Mol Mar Biol Biotechnol 1992 Apr
PMID:A gene encoding chinook salmon (Oncorhynchus tschawytscha) prolactin: gene structure and potential cis-acting regulatory elements. 130 11

We attempted to produce transgenic rainbow trout embryos by fertilizing eggs with sperm incubated with linearized plasmids. One experiment was conducted with the construct pBGH7 in the medium MMSF, with or without DMSO, at 2 concentrations of sperm cells and a relatively low concentration of DNA. The DNA was also in contact with the eggs during insemination and during the first minutes of egg activation. The second experiment was conducted with the construct CMVCAT in the medium MMSF, at 2 concentrations of sperm cells and a much higher concentration of DNA. The DNA was also present during the insemination. DNA analyses and dosages of CAT activity did not permit detection of any transgenic fry. However, one result suggests that sperm cells can capture part of the linear DNA in teh conditions tested.
Mol Mar Biol Biotechnol
PMID:No transgenic rainbow trout produced with sperm incubated with linear DNA. 130 18

The ability of a promoter sequence to drive expression of a reporter gene can be determined by direct injection of copies of the cloned sequence into fish muscle, followed by biopsy of muscle from the site of injection. We describe a set of experiments in which copies of the constructs FV1 and FV2, both comprising a carp beta-actin promoter sequence spliced to the bacterial reporter gene CAT, were injected into the muscle of tilapia fish )Oreochromis niloticus) of between 5 and 8 cm body length. The site of injection was carefully determined so that biopsy samples could be recovered from the injection site 24 hours, 48 hours, and 7 days after injection. Biopsy samples of muscle were homogenized and used for CAT assays. CAT activity was successfully detected in many of the muscle samples.
Mol Mar Biol Biotechnol
PMID:Fish transgene expression by direct injection into fish muscle. 130 19

We have cloned and examined the 5' flanking regions of the heavy (NF-H), light (NF-L) and mid-sized (NF-M) mouse neurofilament (NF) genes in order to begin to characterize the regions of each gene that regulate NF transcription. Chimeric plasmids bearing the CAT reporter gene and deletion mutants of the upstream NF genes were transiently transfected into neuronal (PC12 and Neuro 2A) and non-neuronal (HeLa) cell lines. Constructs bearing upstream regions to -4000 in NF-H, to -5600 in NF-L and to -4500 in NF-M were expressed at low levels in neuronal and in non-neuronal cells. Progressive deletion of 5' flanking sequence to -385 in NF-H, to -325 in NF-L and to -505 in NF-M caused a several-fold increase of transcription from the transfected plasmids. Increases of transcription by deletion mutants followed a similar pattern in neuronal and in non-neuronal cell lines. Negative upstream regions are located between -1314 and -385 in NF-H, between -936 and -325 in NF-L and between -874 and -505 in NF-M. Additional negative regions are present further upstream in NF-L and in NF-H. The negative regions of NF-H and of NF-L suppress transcription when placed in either orientation in front of the SV40 or a heterologous NF promoter. These studies demonstrate that the three mouse NF genes possess similar functional features, namely, that of a relatively strong and promiscuous promoter with negative upstream elements. The role of the negative elements in regulating NF expression remains unclear.
Brain Res Mol Brain Res 1992 Mar
PMID:Negative regulatory regions are present upstream in the three mouse neurofilament genes. 131 9

Neuropeptide Y (NPY) is the most abundant neuropeptide detected in the mammalian brain, and is found throughout the central and peripheral nervous system. This peptide is a proposed regulator of appetite, blood pressure, and pituitary hormone release. Previous experiments have demonstrated the ability of 5' sequences within the human NPY gene to promote transcription in cultured neuronal cells. To identify sequences in this gene that regulate tissue-specific expression, a NPY/CAT fusion gene, containing approximately 850 bp of NPY sequences, was microinjected into fertilized mouse ova. Five lines of transgenic mice were derived from these ova and several tissues from mice of each line were tested for transgene expression using the CAT assay. One line demonstrated X-chromosome-linked transmission of the transgene while the other lines demonstrated autosomally-linked transmission. Three lines demonstrated transgene expression with significant levels of CAT activity detectable only in tissues which have been shown to express endogenous NPY. One autosomally-linked line did not demonstrate significant levels of transgene activity because the transgene appeared to have undergone structural alteration during genomic integration. No transgene activity was detected in either male of female mice from the X-linked line, suggesting a positional regulation of the transgene locus other than X-inactivation in this line. The present research demonstrated the NPY regulatory sequences included in pCATNPY delta 796 sufficiently directed tissue-appropriate gene expression in transgenic mice.
Brain Res Mol Brain Res 1992 Jun
PMID:Tissue-specific expression of the human neuropeptide Y gene in transgenic mice. 132 21

A hormone-inducible transcriptional system has been established, based on the stable transfection of the rat androgen receptor (rAR) and a reporter plasmid containing the mouse mammary tumour virus promoter linked to the chloramphenicol acetyltransferase gene (pMMTV-CAT) into steroid receptor-negative CV-1 cells. First, the rAR was stably introduced into CV-1 cells. Single clones were tested for stable expression of functionally active AR by analysing the effect of dihydrotestosterone on induction of transiently transfected pMMTV-CAT. Stable transfection and the expression of AR was confirmed by steroid-binding assays. In a second step, a clone expressing physiological amounts of AR protein (30 fmol/mg protein) was stably transfected with pMMTV-CAT to yield a permanent cell line that stably expresses functional AR and MMTV-CAT sequences. This cell line provides a powerful tool for the efficient and accurate determination and quantification of the effects of androgens and anti-androgens on reporter gene transcription. This was demonstrated by investigating the action of the three anti-androgens hydroxyflutamide, casodex and cyproterone acetate. The three compounds were shown to reverse the effects of the androgen R1881 on gene expression but were themselves devoid of agonistic activity.
J Steroid Biochem Mol Biol 1992 Sep
PMID:Stable transfection of androgen receptor and MMTV-CAT into mammalian cells: inhibition of cat expression by anti-androgens. 132 16

1. The skeletal muscle acetylcholine receptor comprises several subunits whose coordinated expression during myogenesis is probably controlled by cis elements in the individual subunit genes. We have previously analyzed promoter regions of the alpha and delta genes (Wang et al., 1988, 1990); to gain further insight into receptor regulation, we have now studied the promoter of the chick muscle gamma-subunit gene. 2. This analysis was faciliated by the close upstream proximity of the coding region of the delta-subunit gene and the consequent brevity (740 bp) of the untranslated linker connecting the two genes (Nef et al., 1984). Nuclease protection and primer extension analysis revealed that transcription of the gamma-subunit gene starts at position 56 upstream of the translational initiation site. 3. Nested deletions of the promoter region were employed to identify functionally important elements. A 360-bp sequence (-324 to +36) was found to activate transcription, in a position- and orientation-independent manner, during myotube formation. This sequence comprises 5 M-CAT (Nikovits et al., 1986) similarities and contains, at positions -52/-47 and -33/-28, two CANNTG (Lassar et al., 1989) motifs. 4. Binding experiments were performed by means of gel retardation, gel shift competition, and footprint analysis. The CANNTG motifs were found to bind MyoD and myogenin fusion proteins and to interact with proteins in nuclear extracts from cultured myotubes. 5. Point mutations in the CANNTG motifs revealed that these elements are crucial for full promoter activity in myotubes and essential in fibroblasts cotransfected with a myogenin expression vector. 6. We conclude that the activity of the gamma-subunit gene is determined largely by E boxes, which in vivo are likely to be activated by MyoD family proteins; in addition, other transactivators such as the M-CAT binding protein presumably play a role. Both CANNTG elements and M-CAT motifs are also present in the alpha- and delta-subunit enhancer and may therefore account for the coordinate expression of the three subunits during muscle differentiation.
Cell Mol Neurobiol 1992 Jun
PMID:Analysis of binding and activating functions of the chick muscle acetylcholine receptor gamma-subunit upstream sequence. 133 Mar 9

Testosterone and its 5 alpha-reduced derivative 5 alpha-dihydrotestosterone exert different actions in the male during embryogenesis and in postnatal life. Nevertheless the two hormones bind to the same intracellular androgen receptor, and genetic and endocrinological studies in the Tfm mouse suggest that the actions of both hormones are mediated by this single receptor. Previous studies indicate that dihydrotestosterone binds more tightly to the androgen receptor but that the Bmax of binding of the two hormones is the same. To determine whether these differences in binding parameters could explain the mechanism by which the two hormones exert different physiological actions via the same receptor, we introduced a plasmid encoding the androgen receptor cDNA and a reporter plasmid encoding MMTV-CAT into Chinese hamster ovary cells. These cells do not express endogenous androgen receptor and do not convert testosterone to dihydrotestosterone. Therefore, it was possible to examine the relation between the concentration of each of the steroids and reporter gene expression. Both hormones enhanced CAT activity, but dihydrotestosterone was approximately 10 times as potent (half maximal of 0.018 nM) as testosterone (half maximal of 0.2 nM); the maximal activity achieved was the same for the two androgens. These findings are nearly identical to the apparent Kd values for the interaction of the two hormones with the androgen receptor. Although testosterone and dihydrotestosterone may influence the expression of other genes differently, these findings are compatible with a model system in which the differential effects can be explained as a consequence of different binding affinities to the receptor.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Cell Endocrinol 1992 Oct
PMID:Testosterone and 5 alpha-dihydrotestosterone interact differently with the androgen receptor to enhance transcription of the MMTV-CAT reporter gene. 133 7

In mammals, the pituitary POU homeodomain protein, Pit-1, binds to proximal and distal 5'-flanking sequences of the PRL gene that dictate tissue-specific expression. These DNA sequences are highly conserved among mammals but are dramatically different from PRL 5' sequences in the teleost species, Oncorhynchus tschawytscha (chinook salmon). To analyze the molecular basis for pituitary-specific gene expression in a distantly related vertebrate, we transfected CAT reporter gene constructs containing 2.4 kilobases (kb) 5'-flanking sequence from the salmon PRL (sPRL) gene into various cell types. Expression of the sPRL gene was restricted to pituitary cells, but in rat pituitary GH4 cells levels of expression were at least 90-fold lower than those obtained with a -3 kb rat PRL (rPRL) construct. Conversely, in primary teleost pituitary cells, -2.4 kb sPRL/CAT was expressed at levels about 10-fold higher than -3 kb rPRL/CAT. To determine whether species-specific transactivation by Pit-1 was sufficient to explain these species differences in PRL gene expression, we isolated a cDNA clone encoding the salmon Pit-1 POU domain and constructed a rat Pit-1 expression vector that contained salmon Pit-1 POU domain sequences substituted in frame. The chimeric Pit-1 encoded 14 amino acids unique to salmon. Coexpression of rat Pit-1 with salmon or rat PRL/CAT in transfected HeLa cells resulted in specific and strikingly comparable levels of promoter activation. Moreover, the specificity and efficacy of the chimeric salmon/rat Pit-1 was similar to wild type rat Pit-1 in activating salmon and rat PRL/CAT.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Endocrinol 1992 Apr
PMID:Phylogenetic specificity of prolactin gene expression with conservation of Pit-1 function. 135 55

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