Phylogenetic specificity of prolactin gene expression with conservation of Pit-1 function.

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)     

The mitochondrial uncoupling protein gene in brown fat: correlation between DNase I hypersensitivity and expression in transgenic mice.

The mitochondrial uncoupling protein gene is rapidly induced in mouse brown fat following cold exposure. To identify cis-regulatory elements, approximately 50 kb of chromatin surrounding the uncoupling protein gene was examined for its hypersensitivity to DNase I. Seven DNase I-hypersensitive sites were identified in the 5'-flanking DNA, and one site was identified in the 3'-flanking DNA. Transgenic mice with an uncoupling protein minigene were generated by microinjection of fertilized eggs with a transgene containing 3 kb of 5'-flanking DNA and 0.3 kb of 3'-flanking DNA. Expression of the transgene is restricted to brown fat and is cold inducible. Four additional transgenic lines were generated with a second transgene containing a 1.8-kb deletion in the 5'-flanking DNA, and expression of this minigene is absent in all tissues analyzed. A DNase I-hypersensitive site located in the 1.8-kb deletion contains a cyclic AMP response element that binds a brown fat tumor enriched nuclear factor. On the basis of these observations, we propose that a cis-acting regulatory sequence between -3 and -1.2 kb of the 5'-flanking region, possibly at a DNase I-hypersensitive site, is required for controlling uncoupling protein expression in vivo.     

Identification and expression of cosmids with an allelic variant of class I alcohol dehydrogenase in transgenic mice

The mouse Adh1 gene exhibits tissue-specific regulation, is developmentally regulated, and is androgen regulated in kidney and adrenal tissue. To study this complex regulation phenotype a transgenic mouse approach has been used to investigate regulatory regions of the gene necessary for proper tissue expression and hormonal control. Transgenic mice have been produced with an Adh1 minigene as a reporter behind either 2.5- or 10 kb of 5'-flanking sequence [1]. Complete androgen regulation in kidney requires a region between -2.5 and -10 kb. A sequence extending to -10 kb does not confer liver expression in this minigene construct. B6.S mice express an electrophoretically variant protein resulting from a known nucleotide substitution resulting in a restriction endonuclease length polymorphism. Transgenic mice harboring B6.S cosmids can be studied for expression analysis at both protein and mRNA levels, identification of transgenic founders and inheritance studies are greatly facilitated by a PCR-restriction endonuclease cleavage approach, the entire mouse gene is used as a reporter, and the formation of heterodimeric enzyme molecules can be used to infer expression of the transgene in the proper cell types within a given tissue. Expression of a B6.S cosmid containing the entire Adh1 gene and 6 kb of 5'- and 21 kb of 3'-flanking region occurs in transgenic mice in a copy number dependent manner in a number of tissues, but expression in liver does not occur. The ability to analyze expression at the protein and mRNA levels has been confirmed using this system. Future directions will involve the use of large BAC clones modified by RARE cleavage to identify the liver specific elements necessary for expression.     

Evidence for a role of calmodulin in the regulation of prolactin gene expression

Epidermal growth factor (EGF) stimulates prolactin (PRL) gene expression in GH3 cells in a Ca2+-dependent manner (White, B. A., and Bancroft, F. C. (1983) J. Biol. Chem. 258, 4618-4622). The present report shows that the phenothiazine, calmidazolium (compound R 24571), blocks the ability of EGF plus Ca2+ to increase levels of PRL mRNA. Calmidazolium inhibition of this response is dose dependent in the range of 0.05-1.00 microM. Total inhibition of the response was consistently obtained at a level of calmidazolium (0.5 microM) that had no effect on total cytoplasmic RNA synthesis, total cytoplasmic protein synthesis, cell viability, or extent of EGF plus Ca2+-induced cell aggregation. The drug inhibited the increase in PRL mRNA when given immediately before or 48 h after treatment with EGF plus Ca2+. Another calmodulin inhibitor, W13, similarly blocked the ability of EGF plus Ca2+ to stimulate PRL mRNA, whereas the less active analog, W12, had little effect. These results implicate Ca2+-binding proteins such as calmodulin in the mechanism of action of EGF in GH3 cells, and, therefore, provide further evidence for a role of intracellular Ca2+ in the regulation of the expression of a specific eukaryotic gene, the PRL gene.     

Activation of internucleosomal DNA cleavage in human CEM lymphocytes by glucocorticoid and novobiocin. Evidence for a non-Ca2(+)-requiring mechanism(s)

Internucleosomal DNA cleavage is the key molecular event of the cytolytic phase of glucocorticoid-induced lymphocytolysis. We find that novobiocin, the topoisomerase II inhibitor, is a potent inducer of in vivo internucleosomal DNA cleavage in human CEM lymphocytes. This in vivo effect is very rapid, time- and dose-dependent, requires cellular integrity, and does not require de novo protein synthesis. Recently our data (Alnemri, E. S., and Litwack, G. (1989) J. Biol. Chem. 264, 4104-4111) suggested that activation of DNA cleavage in CEM-C7 lymphocytes by glucocorticoids is independent of calcium uptake. Similarly, the novobiocin effect is also independent of calcium uptake and does not occur in isolated CEM nuclei or in CEM cells treated previously with the divalent cation ionophore A23187. Internucleosomal DNA cleavage induced by novobiocin or glucocorticoid generates blunt-ended double-stranded DNA fragments possessing 3'-hydroxyls and 5'-phosphates. As demonstrated by gel retardation analysis and DNase I footprinting, novobiocin causes the disruption and unfolding of an in vitro reconstituted mononucleosome so that it becomes more susceptible to DNase I cleavage. Our data suggest that 1) novobiocin rapid activation of internucleosomal DNA cleavage and chromatin changes in CEM lymphocytes are molecular features of apoptosis or programmed cell death. 2) CEM lymphocytes apparently do not express a Ca2(+)-dependent endonuclease. 3) The mechanism(s) of glucocorticoid or novobiocin-induced DNA cleavage in CEM lymphocytes involves activation of a constitutive non Ca2(+)-dependent endonuclease. We propose that the majority of nuclear chromatin is maintained in a highly compact and charge-neutralized state and that disruption of this highly ordered structure, directly by novobiocin or indirectly by glucocorticoid, may lead to the exposure and unmasking of internucleosomal linker DNA regions which are substrates for a constitutive non-Ca2(+)-dependent endonuclease.     

Regulated expression of the prolactin gene in rat pituitary tumor cells

Prolactin (PRL) gene expression in three strains of GH cells (rat pituitary tumor cells) has been quantitated by measurement of: (a) intracellular and extracellular PRL, (b) cytoplasmic translatable PRL-specific mRNA (mRNAPRL), and (c) molecular hybridization of cytoplasmic poly(A) RNA to cDNAPRL (DNA complementary to mRNAPRL). Three GH cell lines utilized in this investigation were a PRL-producing (PRL+) strain, GH4C1, a PRL nonproducing 5-bromo-deoxyuridine resistnat (PRL- BrdUrdr) strain, F1BGH12C1, and a new strain, 928-9b, derived by fusion of PRL+ cells with a nuclear monolayer of the PRL-, BrdUrdr GH cell strain. PRL production is a characteristic of 928-9b cells, but the level of PRL production (2-4 micrograms/mg protein/24 h) is much lower than that of the PRL+ strain, GH4C1 (15-25 micrograms/mg protein/24 h). Levels of cytoplasmic translatable mRNAPRL and cytoplasmic PRL-RNA sequences quantitated with a cDNAPRL probe were also much lower in 928-9b as compared to the PRL+ parent. PRL-RNA sequences could not be detected in the PRL- strain. Thyrotopin-releasing hormone (TRH) stimulates PRL synthesis about threefold and inhibit a growth hormone (GH) synthesis 72% in the PRL+ strain. TRH has no effect on the synthesis of either PRL or GH in the 928-9b strain, although TRH receptors could be detected in these cells. Stimulation of PRL synthesis in the PRL+ strain by TRH could be correlated with increases in levels of cytoplasmic translatable mRNAPRL and increases in cytoplasmic PRL-RNA sequences. These results demonstrate that the graded expression of the PRL gene at the basal level, and in response to TRH, is caused by the regulated production of specific mRNA, i.e., mRNAPRL in these three GH cell strains.     

Base mutation analysis of topoisomerase II-idarubicin-DNA ternary complex formation. Evidence for enzyme subunit cooperativity in DNA cleavage.

Antitumor drugs, such as anthracyclines, interfere with mammalian DNA topoisomerase II by forming a ternary complex, DNA-drug-enzyme, in which DNA strands are cleaved and covalently linked to the enzyme. In this work, a synthetic 36-bp DNA oligomer derived from SV40 and mutated variants were used to determine the effects of base mutations on DNA cleavage levels produced by murine topoisomerase II with and without idarubicin. Although site competition could affect cleavage levels, mutation effects were rather similar among several cleavage sites. The major sequence determinants of topoisomerase II DNA cleavage without drugs are up to five base pairs apart from the strand cut, suggesting that DNA protein contacts involving these bases are particularly critical for DNA site recognition. Cleavage sites with adenines at positions -1 were detected without idarubicin only under conditions favouring enzyme binding to DNA, showing that these sites are low affinity sites for topoisomerase II DNA cleavage and/or binding. Moreover, the results indicated that the sequence 5'-(A)TA/(A)-3' (the slash indicates the cleaved bond, parenthesis indicate conditioned preference) from -3 to +1 positions constitutes the complete base sequence preferred by anthracyclines. An important finding was that mutations that improve the fit to the above consensus on one strand can also increase cleavage on the opposite strand, suggesting that a drug molecule may effectively interact with one enzyme subunit only and trap the whole dimeric enzyme. These findings documented that DNA recognition by topoisomerase II may occur at one or the other strand, and not necessarily at both of them, and that the two subunits can act cooperatively to cleave a double helix.     

Transgenic mice selectively lacking MHC class II (I-E) antigen expression on B cells: an in vivo approach to investigate Ia gene function

The E alpha MHC class II gene with 1.4 kb of 5'-flanking and 0.5 kb of 3'-flanking sequences was introduced into (H-2b X s)F2 mice, which do not express their endogenous E alpha gene. The transgene was expressed in thymic tissue and in adherent spleen cells and was induced in peritoneal exudate cells by gamma-interferon. In contrast to the normal E alpha gene, there was no expression in B lymphocytes. Since transgenic animals made with constructs containing 3.2 kb and 2 kb of 5'-flanking sequences show normal expression pattern of the E alpha gene, it appears that deletion of 5'-flanking sequences between -1.4 kb and -2 kb inactivated or eliminated regulatory sequences required for expression of E alpha specifically in B cells. The presence of pBR327 DNA linked to the -1.4 kb E alpha transgene suppresses expression in peripheral adherent cells, yielding mice expressing E alpha only in the thymus. These mice appear to be tolerant to I-E, as measured in mixed leukocyte response experiments.