Bovine dopamine beta-hydroxylase cDNA. Complete coding sequence and expression in mammalian cells with vaccinia virus vector.

We have isolated cDNA clones for bovine dopamine beta-hydroxylase from an adrenal medulla cDNA library and have determined the complete coding sequence. The largest cDNA clone isolated from the library is 2.4 kilobase pairs (kb) and contains an open reading frame of 1788 bases, coding for a protein of 597 amino acids and Mr = 66,803. The predicted amino acid sequence of the bovine cDNA contains 85% identity with human dopamine beta-hydroxylase (Lamouroux, A., Vingny, A., Faucon Biquet, N., Darmon, M. C., Franck, R., Henry, J.P., and Mallet, J. (1987) EMBO J. 6, 3931-3937; Kobayashi, K., Kurosawa, Y., Fujita, K., and Nagatsu, T. (1989) Nucleic Acids Res. 17, 1089-1102). Northern blot analysis reveals that the cDNA hybridizes to an mRNA of 2.4 kb present in bovine adrenal medulla, but not in kidney, heart, or liver. In addition, the cDNA hybridizes to a second RNA species of 5.5 kb, which is 4-fold less abundant than the 2.4-kb RNA. In vitro translation of a synthetic RNA transcribed from the 2.4-kb cDNA produces a 68-kDa protein, which is specifically immunoprecipitated by antiserum to bovine dopamine beta-hydroxylase. The 2.4-kb cDNA was cloned into a vaccinia virus vector, and the recombinant virus was used to infect the rat pheochromocytoma PC12 and monkey BSC-40 fibroblast cell lines. In both cell lines, infection with recombinant virus produces a protein of Mr = 75,000, which reacts with antiserum to bovine dopamine beta-hydroxylase. These results indicate that the 2.4-kb cDNA contains the genetic information necessary to code for the bovine dopamine beta-hydroxylase subunit.     

Expression of the cytochrome b-URF6-URF5 region of the mouse mitochondrial genome

The nature of RNA coded by the only light-strand (L-strand) open-reading frame unidentified reading frame 6 (URF6) was studied by using a variety of single- and double-strand DNA subclones derived from the 3.6-kilobase (kb) cytochrome b (cyt b)-URF5 coding region of the mouse mitochondrial genome. Northern blot experiments using single-strand-specific M13 clones indicate that both the heavy (H) and L strands of this genomic region are symmetrically transcribed and processed into poly(adenylic acid) [poly(A)] RNAs of comparable size. The 1.2- and 2.4-kb RNAs coded by the H strand, putative mRNAs for cyt b and URF5 reading frames, respectively, are derived from a common precursor of 3.6-kb RNA. The L-strand-coded 1.15-kb RNA, on the other hand, is derived from a short-lived precursor of 3.6-kb RNA by a multiple-step processing involving a 2.4-kb intermediate RNA. The S1 nuclease protection experiments using both the 3'- or 5'-end-labeled DNA probes and also affinity-purified 32P-labeled RNA probes indicate that the 1.15-kb RNA maps between the start of the URF6 reading frame (3' end) and a region 590-600 nucleotides to the 5' end of this reading frame. The 1.15-kb RNA thus contains the entire URF6 coding sequence and an about 590-nucleotide-long 3' untranslated region. The molar abundance of the three mRNAs in the steady-state mitochondrial RNA varies markedly. The 1.15-kb URF6 mRNA is only one-tenth the level of 1.2-kb cyt b mRNA, although it is nearly as abundant as the 2.4-kb URF5 mRNA.(ABSTRACT TRUNCATED AT 250 WORDS)     

Sequence complementarity between the 5'-terminal regions of mRNAs for rat mitochondrial cytochrome P-450c27/25 and a growth hormone-inducible serine protease inhibitor. A possible gene overlap.

Recently we reported that a P-450c27/25 cDNA probe hybridizes to two RNA species of about 1.9 and 2.3-2.4 kilobase pairs (kb) in some rat tissues. To understand the molecular relationship between the two mRNAs, we have isolated and characterized a cDNA for the larger, previously uncharacterized 2.3-kb mRNA species. The 2.3-kb cDNA is identical to the previously reported 1.9-kb P-450c27/25 cDNA excepting a 400-nucleotide-long 5' extension. The terminal 291 nucleotides of this extension exhibit 100% complementarity with the 5'-translated region of the mRNA belonging to a family of growth hormone-inducible serine protease inhibitors (SPI). Northern blot analysis, using strand-specific probes, and S1 nuclease protection revealed the presence of the 2.3-kb mRNA exhibiting the sequence characteristics of the larger cDNA. These results were further confirmed by polymerase chain reaction amplification of reverse transcribed RNA. Expression of the 2.3-kb cDNA in COS cells resulted in the correct mitochondrial targeting of a 52-kDa protein exhibiting the properties of P-450c27/25. Furthermore, both the 1.9- and 2.3-kb mRNAs appear to direct the synthesis of a similarly sized 55-kDa precursor protein in a reticulocyte lysate system. Restriction mapping, polymerase chain reaction amplification and partial sequencing of a 25-kb genomic DNA clone suggest the proximal location of the SPI and the P-450c27/25 protein coding regions in the rat genome on either side of a common overlap region. The results also show that the P-450c27/25 mRNAs are regulated by growth hormone in parallel to the SPI mRNAs. These results collectively suggest that a growth hormone-inducible SPI family mRNA and the P-450c27/25 mRNA are encoded by two closely linked, possibly overlapping genes.     

Detection of a Novel Sepiapterin Reductase mRNA: Assay of mRNA in Various Cells and Tissues of Various Species

Fragments of cDNA coding for rat, murine, and human sepiapterin reductase (SR) were amplified by PCR via primer positioning close to the reported 3′-end of the coding region in the rat enzyme. They were sequenced and used as probes for mRNA detection. Northern blot analysis detected two mRNA species for SR. Their sizes were 1.3 and 2.1 kb for rat, 1.3 and 2.3 kb for mouse, and 1.6 and 2.1 kb for human cell lines. Comparison of rat cell lines and rat tissues indicated that in tissues only the 1.3-kb species is present. Washing of the Northern blots under different stringency conditions indicated a more stable interaction of the 1.3-kb mRNA species with the cDNA probe as compared to the 2.3-kb species. The 1.3-kb species corresponds to the reported 28.2-kDa molecular mass of rat SR monomer. SR mRNA expression is absent in the human NK-like cell line YT and in the murine erythroleukemia subclone B8/3, which both lack SR activity. Moreover, the relative mRNA expression correlates with the enzymatic activities of different cell lines within the same species. This indicates that SR activity is regulated by its steady state mRNA levels.     

Structures of human genes coding for cytokine LD78 and their expression.

LD78 is a member of a newly identified superfamily of small inducible proteins involved in inflammatory responses, wound healing, and tumorigenesis. Southern blot analysis of the EcoRI-digested human genomic DNAs, using previously isolated LD78 cDNA as a probe, showed that in each individual there are 4.2- and 4.8-kilobase-pair (kb) fragments and that some have an additional 6.5-kb fragment. The 4.2-kb fragment contained genomic DNA sequences corresponding to the LD78 cDNA and was named the LD78 alpha gene. The 4.8-kb fragment contained similar sequences, showing 94% homology to the LD78 alpha gene, and was named the LD78 beta gene. The LD78 alpha gene was present in a single or a few copies per haploid genome, whereas the copy number of the LD78 beta gene and of the 6.5-kb fragment hybridizable to LD78 cDNA varied among the samples tested. Treatment of human myeloid cell lines HL-60 and U937 with phorbol 12-myristate 13-acetate (PMA) increased within 2 h cellular levels of the RNA hybridizable to LD78 cDNA. The human glioma cell line U105MG and primary culture of human fibroblasts also expressed the hybridizable RNA in response to PMA. Addition of cycloheximide had no apparent effect on this response in U937 cells and inhibited the response in fibroblasts, whereas it stimulated the response in HL-60 and U105MG cells. mRNA phenotyping experiments revealed that the LD78 alpha and LD78 beta genes were both transcribed in PMA-stimulated U937 cells.     

Human complement factor H. Tissue specificity in the expression of three different mRNA species.

Using cDNA clones H-19 and H-46, we have shown previously that three different mRNA species (4.3 kb, 1.8 kb and 1.4 kb) for complement factor H are expressed constitutively in human liver. Here we report data suggesting that the expression of these different factor-H mRNA species is regulated by tissue-specific control mechanisms. Total RNA and poly(A)-enriched RNA from various human tissues (heart, lung, temporal cortex, kidney, spleen, bone marrow and muscle) various cell lines (HepG2, HepG3, HepG4, Hep3B, H-4, Jurkat, Molt4, H-9, KHos24Os, A-431, U937, Mono Mac 6 and Raji) and from primary cultures of peripheral blood monocytes, fibroblasts and human umbilical vein endothelial cells (HUVEC) were investigated for the expression of factor-H mRNA. In RNA preparations from extrahepatic tissue, factor-H mRNA was only detected in biopsies from the lung. Using 20 micrograms total RNA isolated from all 13 cell lines it was not possible to detect any factor-H mRNA, while mRNA for factor H was expressed in monocytes, HUVEC and fibroblasts. When expressed in extrahepatic tissues, only the 4.3-kb and the 1.8-kb mRNA species were detected, while the 1.4-kb mRNA is expressed abundantly in liver. Interferon-gamma did not induce the expression of factor-H mRNA in any of the cell lines tested. On the other hand, tumour necrosis factor-alpha induced the expression of the 4.3-kb mRNA species in U937 cells. In HUVEC and fibroblasts the relative quantities of the 4.3-kb and the 1.8-kb mRNA species and the regulatory effects of interferon-gamma, interleukin-1, dexamethasone and retinoic acid on their expression showed significant tissue specificity.     

The isolation of cDNA clones for human apolipoprotein E and the detection of apoE RNA in hepatic and extra-hepatic tissues.

We have isolated cDNA clones coding for apolipoprotein E (apoE) from a cDNA library prepared from adult human liver mRNA. Mixtures of 128 different oligonucleotides, 17 residues long were synthesised to be complementary to regions of the mRNA corresponding to amino acids 1-6 and 151-156. Five independent apoE clones were selected by direct screening of 5000 recombinants with the two oligonucleotide mixtures. Two overlapping clones contain the 3'-untranslated sequence, the entire coding sequence and an additional 30 bases 5' to the amino terminus of the mature protein. The DNA sequence has been determined spanning the known sites of amino acid substitutions which account for the observed protein polymorphism of apoE. Using the clones as probes in Northern blot analysis of total human liver and kidney RNAs and leucocyte poly(A)+ RNA we have detected a single species of mRNA in liver and kidney of 1.2 kb and two larger species in leucocyte RNA. The level of expression of the mRNA in kidney is approximately 10% of that in liver while the level of apoE RNA sequences in the leucocytes is less than 1% of that in the liver.     

Amplification and cloning of the Chinese hamster glutamine synthetase gene.

A Chinese hamster ovary cell line, KG1MS which is resistant to 5 mM methionine sulphoximine overproduces glutamine synthetase. Overproduction of this 42 000 mol. wt. polypeptide is not seen in either parental KG1 or revertant KG1MSC4-0 cell lines which are resistant to 3 microM and 8 microM methionine sulphoximine, respectively. Restriction endonuclease analysis of DNA from KG1MS cells produces a pattern of amplified DNA fragments not seen in parental KG1 or revertant KG1MSC4-0 digests. Hybridization of cDNA probes complementary to KG1MS poly(A) mRNA against Southern blots of KG1MS restriction digests identifies a specific subset within these amplified sequences which is not detected by cDNA probes made from parental KG1 poly(A) mRNA. One 8.2-kb BglII fragment of KG1MS DNA identified by cDNA hybridization has been cloned to produce recombinant pGS-1. mRNA hybrid selected by pGS-1 translates to a 42 000 mol. wt. polypeptide which co-migrates in polyacrylamide gels with the over-produced protein in KG1MS cells and purified glutamine synthetase. pGS-1 also hybridizes to several mRNA species abundant in KG1MSC4-M, but not KG1, poly(A) mRNA extracts. The high level of resistance to methionine sulphoximine shown by KG1MS cells is due to amplification of a DNA sequence of at least 50 kb which contains the coding region for the enzyme glutamine synthetase.     

Molecular forms of N-CAM and its RNA in developing and denervated skeletal muscle

The neural cell adhesion molecule (N-CAM) is present in both embryonic and perinatal muscle, but its distribution changes as myoblasts form myotubes and axons establish synapses (Covault, J., and J. R. Sanes, 1986, J. Cell Biol., 102:716-730). Levels of N-CAM decline postnatally but increase when adult muscle is denervated or paralyzed (Covault, J., and J. R. Sanes, 1985, Proc. Natl. Acad. Sci. USA., 82:4544-4548). To determine the molecular forms of N-CAM and N-CAM-related RNA during these different periods we used immunoblotting and nucleic acid hybridization techniques to analyze N-CAM and its RNA in developing, cultured, adult, and denervated adult muscle. As muscles develop, the extent of sialylation of muscle N-CAM decreases, and a 140-kD desialo form of N-CAM (generated by neuraminidase treatment) is replaced by a 125-kD form. This change in the apparent molecular weight of desialo N-CAM is paralleled by a change in N-CAM RNA: early embryonic muscles express a 6.7-kb RNA species which hybridizes with N-CAM cDNA, whereas in neonatal muscle this form is largely replaced by 5.2- and 2.9-kb species. Similar transitions in the desialo form of N-CAM, but not in extent of sialylation, accompany differentiation in primary cultures of embryonic muscle and in cultures of the clonal muscle cell lines C2 and BC3H-1. Both in vivo and in vitro, a 140-kD desialo form of N-CAM and a 6.7-kb N-CAM RNA are apparently associated with myoblasts, whereas a 125-kD desialo form and 5.2- and 2.9-kb RNAs are associated with myotubes and myofibers. After denervation of adult muscle, a approximately 12-15-fold increase in the levels of N-CAM is accompanied by a approximately 30-50-fold increase in N-CAM RNA, suggesting that N-CAM expression is regulated at a pretranslational level. Forms of N-CAM and its RNA in denervated muscle are similar to those seen in perinatal myofibers.     

Cloning of the human oestrogen receptor cDNA

Poly A+ RNA isolated from the human breast cancer cell line MCF-7 was fractionated by sucrose gradient centrifugation and those fractions enriched in oestrogen receptor (ER) mRNA were used to prepare randomly primed cDNA libraries in the lambda gt11 vectors. Clones corresponding to the ER were isolated from both libraries after screening with either ER monoclonal antibodies (lambda gt11) or synthetic oligonucleotide probes designed from two peptide sequences of purified ER (lambda gt10). Five cDNA clones were isolated by antibody screening and five after screening with synthetic oligonucleotides. The two largest ER cDNA clones, lambda OR3 (1.3 kbase) and lambda OR8 (2.1 kbase), isolated using antibodies and oligonucleotides, respectively, were able to enrich selectively for ER mRNA by hybrid-selection. Furthermore, lambda OR8 contains DNA sequences which cross-hybridize with each of the other ER cDNA clones. These results demonstrate that the clones isolated correspond to the ER mRNA sequence. Using lambda OR8 as a hybridization probe revealed a single poly A+ RNA band of approx. 6.2 kbase in the ER containing human breast cancer cell lines MCF-7 and T47D. In contrast, no hybridization was seen in the human ER-cell line HeLa. The same probe hybridizes to a chicken gene which is expressed in oviduct tissue as a 7.5 kbase poly A+ RNA.     

Isolation and characterization of human actin genes cloned in phage lambda vectors

Using Drosophila and chicken actin probes, we have selected 14 human actin lambda recombinants from a genomic library. We present a restriction maps indicating the positions of the sequences homologous to actin and to an Alu probe. Restriction mapping has revealed that nine out of ten of these clones are distinct, indicating that actin is a multigene family. Hybrid elution of HeLa cell mRNA from filters containing the recombinant DNA, followed by in vitro translation and immunoprecipitation, as well as one- or two-dimensional protein analysis, shows that these recombinants code for actin. Hybridization back to human DNA digested with restriction enzymes shows that the EcoRI fragments of at least one of the lambda recombinants (lambda HA-5) result in similar-sized human DNA fragments in the intact genome. In nuclei, a 4.5-kb mRNA precursor to the cytoplasmic 1.9-kb mRNA can be detected by hybridization with genomic or cDNA probes, indicating the presence of additional sequences and RNA processing.     

Human aminoacylase-1: cloning, regional assignment to distal chromosome 3p21.1, and identification of a cross-hybridizing sequence on chromosome 18.

Aminoacylase-1 (ACY1, EC 3.5.1.14) is a cytosolic enzyme with a wide range of tissue expression and has been postulated to function in the catabolism and salvage of acylated amino acids. ACY1 has been assigned to chromosome 3p21, a region reduced to homozygosity in small-cell lung cancer and renal cell carcinoma, and has been reported to exhibit reduced or absent expression in small-cell lung cancer cell lines and tumors. Using monoclonal antibodies to human ACY1, we have isolated cDNA clones from a liver lambda gt11 cDNA library. As proof of identity, the fusion protein encoded by a putative ACY1 cDNA displayed ACY1 enzymatic activity. Additionally, it was determined that the putative ACY1 cDNA clones hybridize to an EcoR1 restriction fragment that has been mapped to chromosome 3p. Both ACY1 activity and this restriction fragment have been further demonstrated to be syntenic to distal 3p21.1 through the use of a panel of human-rodent somatic cell hybrids containing fragments of chromosome 3. An additional EcoR1 restriction fragment to which the probe hybridizes has been assigned to chromosome 18. The major mRNA species to which the ACY1 cDNA hybridizes is 0.9 kb; faint hybridization to a 4.2-kb mRNA species is also detected. These studies further refine a region of interest in the investigation of gene inactivation in small-cell lung cancer and provide a new marker on chromosome 18.     

A novel low molecular weight ribonucleic acid (RNA) related to transforming growth factor alpha messenger RNA

Human transforming growth factor alpha (TGF alpha) is coded for by an mRNA of about 4800 nucleotides. The cDNA sequence demonstrates that the 50 amino acid TGF alpha is embedded in a larger 160 amino acid precursor protein. We report here that in addition to the 4800 nucleotide TGF alpha mRNA, there is a novel second RNA species of about 350 nucleotides that hybridizes to a human TGF alpha cDNA probe. This small RNA species has been found in the RNA of several human tumor cells including HT1080, A549, A431, A2058, and A673. We have demonstrated an inverse relationship between the amounts of the 4800 nucleotide TGF alpha mRNA and the 350 nucleotide novel RNA in these human cells. Restriction enzyme cleavage of a human TGF alpha cDNA probe into three separate domains consisting of a processed coding region and 5'- and 3'-preprocessed coding and untranslated regions showed that only the 3'-untranslated region hybridized to the 350 nucleotide RNA. Using sense and anti-sense single-stranded 3'-untranslated region probes, we determined that the 350 nucleotide RNA band may be composed of multiple species of RNA which are related to the anti-sense DNA strand that is opposite to the strand that codes for the 4800 nucleotide TGF alpha mRNA.     

Localization of the human gene for the type I cyclic GMP-dependent protein kinase to chromosome 10.

We have recently characterized cDNAs and genomic DNA fragments for human type I cGMP-dependent protein kinase (cGK). By probing human x hamster hybrid cell lines with a 1.2-kb intron fragment from the human type I cGK gene, we identified a 5.9-kb BglII restriction fragment and localized it to human chromosome 10. In situ hybridization analyses using 3H-labeled cDNA and genomic DNA probes for the human type I cGK to human metaphase chromosomes supported the somatic cell hybrid data and indicated that the gene (PRKG1B; protein kinase, cGMP-dependent) maps to 10p11.2----q11.2.