Expression of UDP-glucuronosyltransferase cDNA in Saccharomyces cerevisiae as a membrane-bound and as a cytosolic form

The mouse clone UDPGTm-1 encodes a UDP-glucuronosyltransferase enzyme which was isolated from a lambda gt11 cDNA library constructed with phenobarbital-induced liver mRNA [Kimura, T., & Owens, I. S. (1987) Eur. J. Biochem. 168, 515-521]. In order to establish substrate specificity, UDPGTm-1 was inserted into the yeast vector pEVP11 and expressed in Saccharomyces cerevisiae strain AH22. Cells transformed with the expression unit pUDPGTm-1c (insert in correct orientation with respect to promoter) stably transcribe the transferase cDNA. Consistent with the presence of mRNA, pUDPGTm-1c-transformed AH22 cells synthesize a transferase protein with Mr congruent to 51,000 by Western immunoblot analysis. The membrane-bound transferase expressed in yeast in glycosylated as indicated by its enhanced electrophoretic mobility in a SDS-polyacrylamide gel following endoglycosidase H treatment and detection by Western immunoblot analysis. A survey, using 12 aglycons in an assay with microsomes from cells which express the protein, shows preferential glucuronidation of naphthol and estrone followed by p-nitrophenol. Testosterone, phenolphthalein, dihydrotestosterone, androsterone, and 4-methylumbelliferone are conjugated at an intermediate level. There is barely detectable glucuronidation of 3-hydroxy- and 9-hydroxybenzo[a]pyrene and no detectable conversion of morphine or lithocholic acid. The truncated cDNA (lacking the putative membrane-insertion signal-peptide coding sequence, but with a newly adapted translation-start codon) is ligated into pAAH5 and is expressed as a cytosolic transferase form in the protease-deficient ZA521 strain of S. cerevisiae. The Mr congruent to 51,000-52,000 is similar to that seen in microsomes from AH22 cells where the protein is presumably processed as it is inserted into the membrane.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cloning and characterization of DNA complementary to rat liver UDP-glucuronosyltransferase mRNA

UDP-glucuronosyltransferase (transferase) clones were isolated from a cDNA bank constructed in pBR322 using transferase-enriched mRNA from the livers of phenobarbital-treated rats. The enrichment of mRNA was accomplished by polysome immunoadsorption with antibody to purified mouse liver transferase. This antibody was shown to bind specifically to rat transferase by Ouchterlony double diffusion analysis, immunoadsorption of glucuronidating activities, and selective inhibition of the immunoadsorption of in vitro synthesized enzyme by purified rat liver transferase. The isolated clones were verified to contain DNA complementary to transferase mRNA by hybrid translation-selection. Three classes of transferase cDNAs were characterized by restriction endonuclease mapping, and the largest insert-containing clone of each class was designated pUDPGTr-1, pUDPGTr-2, and pUDPGTr-3. Their insert sizes were approximately 2,400, 2,000, and 2,000 bp, respectively. All three cDNAs hybridized with a 2,300 +/- 150 bp mRNA, and each selected the translation of a 52,000-dalton polypeptide. Immunoadsorption of the 35S-labeled translation product could be competitively inhibited in each case by the addition of purified rat liver transferase. pUDPGTr-1 and pUDPGTr-3 inserts shared extensive sequence homology. This was demonstrated by Southern blot analysis using purified inserts and electron microscopic heteroduplex analysis. Southern blot analysis revealed that these cDNAs hybridized to overlapping genomic fragments. pUDPGTr-2 shared less sequence homology with the other two classes of cDNAs, based on the above criteria. In addition, mRNA corresponding to pUDPGTr-2 was elevated 5-fold by phenobarbital treatment, whereas the other mRNAs levels were unaffected. These studies demonstrate that in rat liver there are a minimum of three distinct transferase mRNAs, two of which may be associated with a common gene or gene family.     

Rat liver glutathione S-transferases. Complete nucleotide sequence of a glutathione S-transferase mRNA and the regulation of the Ya, Yb, and Yc mRNAs by 3-methylcholanthrene and phenobarbital

With the use of cDNA probes reverse transcribed from purified glutathione S-transferase mRNA templates, four cDNA clones complementary to transferase mRNAs have been identified and characterized. Two clones, pGTB38 and pGTB34, have cDNA inserts of approximately 950 and 900 base pairs, respectively, and hybridize to a mRNA(s) whose size is approximately 980 nucleotides. In hybrid-select translation experiments, pGTB38 and pGTB34 select mRNAs specific for the Ya and Yc subunits of rat liver glutathione S-transferases. Clone pGTB33, which harbors a truncated cDNA insert, hybrid-selects only the Ya mRNA. All of the clones, pGTB38, pGTB34, and pGTB33, hybrid-select another mRNA which is specific for a polypeptide with an electrophoretic mobility slightly greater than the Ya subunit. The entire nucleotide sequence of the full length clone, pGTB38, has been determined and the complete amino acid sequence of the corresponding polypeptide has been deduced. The mRNA codes for a protein comprising 222 amino acids with Mr = 25,547. We have also identified a cDNA clone complementary to a Yb mRNA of the rat liver glutathione S-transferases. This clone, pGTA/C36, hybrid-selects only Yb mRNA(s) and hybridizes to a mRNA(s) whose size is approximately 1200 nucleotides. Although the Ya, Yb, and Yc mRNAs are elevated coordinately by phenobarbital and 3-methylcholanthrene, the Ya-Yc mRNAs are induced to a much greater extent compared to the Yb mRNA(s). These data suggest that the mRNAs for each transferase isozyme are regulated independently.     

Rat liver glutathione S-transferases. Nucleotide sequence analysis of a Yb1 cDNA clone and prediction of the complete amino acid sequence of the Yb1 subunit

We have constructed a nearly full length cDNA clone, pGTA/C44, complementary to the rat liver glutathione S-transferase Yb1 mRNA. The nucleotide sequence of pGTA/C44 has been determined, and the complete amino acid sequence of the Yb1 subunit has been deduced. The cDNA clone contains an open reading frame of 654 nucleotides encoding a polypeptide comprising 218 amino acids with Mr = 25,919. The NH2-terminal sequence deduced from DNA sequence analysis of pGTA/C44 is in agreement with the first 19 amino acids determined for purified glutathione S-transferase A, a Yb1 homodimer, by Frey et al. (Frey, A. B., Friedberg, T., Oesch, F., and Kreibich, G. (1983) J. Biol. Chem. 258, 11321-11325). The DNA sequence of pGTA/C44 shares significant sequence homology with a cDNA clone, pGT55, which is complementary to a mouse liver glutathione S-transferase (Pearson, W. R., Windle, J. J., Morrow, J. F., Benson, A. M., and Talalay, P. (1983) J. Biol. Chem. 258, 2052-2062). We have also determined 37 nucleotides of the 5'-untranslated region and 348 nucleotides of the 3'-untranslated region of the Yb1 mRNA. The Yb1 mRNA and subunit do not share any sequence homology with the rat liver glutathione S-transferase Ya or Yc mRNAs or their corresponding subunits. These data provide the first direct evidence that the Yb1 subunit is derived from a gene or gene family which is distinct from the Ya-Yc gene family.     

Molecular characterization of the interferon-induced 15-kDa protein. Molecular cloning and nucleotide and amino acid sequence

We have isolated a cDNA clone for an interferon-induced 15-kDa protein. The cDNA clone was prepared from mRNA isolated from interferon-beta-treated human Daudi cells. The clone of 635 base pairs contains an open reading frame coding for a protein of 145 amino acids, and suggests for the mRNA a 75-base pair 5' untranslated and a 125-base pair 3' untranslated region. Approximately 85% of the amino acid sequence of the 15-kDa protein has been independently obtained from 2 nmol of material using microsequencing technology on the N terminus of the intact protein and on tryptic and chymotryptic peptides. The amino acid sequence of the isolated protein is identical to the amino acid sequence deduced from the cDNA. Northern blot analysis confirmed that the mRNA for the 15-kDa protein is undetectable in untreated cells, but is greatly induced following interferon treatment.     

Cloning of the cDNAs encoding the cellular retinaldehyde-binding protein from bovine and human retina and comparison of the protein structures

A 1173-base pair cDNA encoding bovine cellular retinaldehyde-binding protein (CRALBP) was cloned from a bovine retinal cDNA expression library using as probes both anti-CRALBP polyclonal and monoclonal antibodies. The amino acid sequence deduced from the cDNA corresponds exactly to that determined by direct analysis of NH2-terminally acetylated bovine CRALBP (Crabb, J. W., Johnson, C. M., Carr, S. A., Armes, L. G., and Saari, J. C. (1988) J. Biol. Chem. 263, 18678-18687). Nick-translated bovine CRALBP cDNA probes were then used to clone from a human retinal cDNA library a 1317-base pair cDNA encoding human CRALBP. Bovine and human CRALBP are 92% identical in amino acid sequence and not related to any other known protein sequence. Both the bovine and human proteins contain 316 residues and have calculated molecular weights of 36,378 and 36,347, respectively, exclusive of the NH2-terminal blocking groups. The CRALBP cDNA clones should prove valuable as tools for studying the physiological role of the protein in vision and visual disorders.     

Altered activation/detoxication enzymology following neonatal diethylstilbestrol treatment

The effects of neonatal exposure to diethylstilbestrol (DES) on hepatic activation/detoxication enzyme levels in the adult rat were investigated. Neonatal exposure of male rats to DES (DES males) decreased the endogenous levels of UDP-glucuronyltransferase as compared to control males. Female rats exposed neonatally to DES (DES females) had higher endogenous epoxide hydrolase and glutathione transferase activity levels than control females. Adult animals treated neonatally with DES also had altered metabolic potential following exposure to 3-methylcholanthrene and phenobarbital. The DES males treated in adulthood with 3-methylcholanthrene had higher benzo(a)pyrene hydroxylase activities and lower UDP-glucuronyltransferase activity levels than did control males treated in adulthood with 3-methylcholanthrene. The DES males exposed in adulthood to phenobarbital had reduced cytochrome P-450 and glutathione transferase activity levels as compared with respective controls. The DES females treated in adulthood with 3-methylcholanthrene had lower benzo(a)pyrene hydroxylase and epoxide hydrolase activity levels than control females receiving 3-methylcholanthrene. The DES females challenged in adulthood with phenobarbital also had decreased benzo(a)pyrene hydroxylase, epoxide hydrolase, UDP- glucuronyltransferase, and glutathione transferase activity levels as compared with respective controls. Our results demonstrated that neonatal exposure to DES changed the endogenous levels of specific hepatic enzymes and altered the metabolic response of these adult animals to a carcinogen and a drug.     

Rabbit microsomal epoxide hydrolase: isolation and characterization of the xenobiotic metabolizing enzyme cDNA

Many endogenous and xenobiotic chemicals are metabolized to epoxides which may be enzymatically hydrated, via microsomal epoxide hydrolase (mEH), to less reactive dihydrodiol derivatives. On the basis of the reported rabbit mEH amino acid sequence [F. S. Heinemann and J. Ozols (1984) J. Biol. Chem. 259, 797-804], we constructed a 35 base oligonucleotide which was used to screen rabbit liver cDNA libraries. Overlapping rabbit mEH clones were isolated and the full-length cDNA sequence of 1653 bp was determined. The rabbit nucleotide sequence has a high degree of similarity (greater than 75%) with cDNA sequences reported for rat and human mEH. Northern blot analyses with fragments of the rabbit cDNA demonstrate that mEH messenger RNA (mRNA) is expressed constitutively in the liver and induced following exposure to phenobarbital or polychlorinated biphenyls. Constitutive expression of mEH mRNA is also observed in rabbit kidney, testes, and lung. Using benzo[alpha]pyrene-4,5-oxide as substrate, mEH enzymatic activity is shown to correlate closely with tissue levels of mEH mRNA. Southern blot analyses of rabbit DNA suggest that the mEH gene exists as a single copy per haploid genome. The mEH amino acid sequences of the human and rat were compared to that of the deduced rabbit protein in order to analyze the degree of conservation and hydropathy profiles in these species. This comparison permitted the formulation of a computer-assisted model of mammalian mEH as it may relate to the microsomal membrane.     

Construction and sequence of cDNA for rat liver stearyl coenzyme A desaturase

Hepatic poly(A+) RNA from rats induced for stearyl-CoA desaturase was used for primer-extension of cDNA coding for stearyl-CoA desaturase. Previously, Northern blot analysis showed that translatable desaturase mRNA is 4,900 nucleotides in length (Thiede, M. A., and Strittmatter, P. (1985) J. Biol. Chem. 260, 14459-14463). Six overlapping cDNAs, ranging from 850 to 1450 bases, were used to compile the 4,689-nucleotide sequence. The cDNA includes a 1,074-base open reading frame coding for 358 amino acids, corresponding to a molecular mass of 41,400 daltons. Positive identification of this open reading frame was accomplished by matching the amino acid sequence of both amino-terminal and cyanogen bromide peptides of the purified enzyme with regions of the sequence deduced from the cDNA. Amino acid composition data from the cDNA compares well with that from the desaturase. The protein contains 62% hydrophobic amino acids. An interesting feature of this mRNA is the 3,500-base 3' noncoding region, which has been localized on a single 3' exon by Southern blot analysis.     

The cDNA sequence of mouse Pgp-1 and homology to human CD44 cell surface antigen and proteoglycan core/link proteins

We describe the isolation and sequencing of a cDNA encoding mouse Pgp-1. An oligonucleotide probe corresponding to the NH2-terminal sequence of the purified protein was synthesized by the polymerase chain reaction and used to screen a mouse macrophage lambda gt11 library. A cDNA clone with an insert of 1.2 kilobases was selected and sequenced. In Northern blot analysis, only cells expressing Pgp-1 contained mRNA species that hybridized with this Pgp-1 cDNA. The nucleotide sequence of the cDNA has a single open reading frame that yields a protein-coding sequence of 1076 base pairs followed by a 132-base pair 3'-untranslated sequence that includes a putative polyadenylation signal but no poly(A) tail. The translated sequence comprises a 13-amino acid signal peptide followed by a polypeptide core of 345 residues corresponding to an Mr of 37,800. Portions of the deduced amino acid sequence were identical to those obtained by amino acid sequence analysis from the purified glycoprotein, confirming that the cDNA encodes Pgp-1. The predicted structure of Pgp-1 includes an NH2-terminal extracellular domain (residues 14-265), a transmembrane domain (residues 266-286), and a cytoplasmic tail (residues 287-358). Portions of the mouse Pgp-1 sequence are highly similar to that of the human CD44 cell surface glycoprotein implicated in cell adhesion. The protein also shows sequence similarity to the proteoglycan tandem repeat sequences found in cartilage link protein and cartilage proteoglycan core protein which are thought to be involved in binding to hyaluronic acid.     

Separate nuclear genes encode sarcomere-specific and ubiquitous human mitochondrial creatine kinase isoenzymes

Creatine kinase (EC 2.7.3.2) isoenzymes play a central role in energy transduction. Nuclear genes encode creatine kinase subunits from muscle, brain, and mitochondria (MtCK). We have recently isolated a cDNA clone encoding MtCK from a human placental library which is expressed in many human tissues (Haas, R. C., Korenfeld, C., Zhang, Z., Perryman, B., Roman, D., and Strauss, A. W. (1989) J. Biol. Chem. 264, 2890-2897). With nontranslated and coding region probes, we demonstrated by RNA blot analysis that the MtCK mRNA in sarcomeric muscle is distinct from this placenta-derived, ubiquitous MtCK cDNA. To compare these different mRNAs, a MtCK cDNA clone was isolated from a human heart library and characterized by complete nucleotide sequence analysis. The chemically determined NH2-terminal 26 residues of purified human heart MtCK protein are identical to those predicted from this sarcomeric MtCK cDNA. The human sarcomeric and ubiquitous cDNAs share 73% nucleotide and 80% predicted amino acid sequence identities, but have less than 66% identity with the cytosolic creatine kinases. The sarcomeric MtCK cDNA encodes a 419-amino acid protein which contains a 39-residue transit peptide essential for mitochondrial import. Primer extension analysis predicts a 348-base pair 5'-nontranslated region. RNA blot analysis demonstrates that heart-derived MtCK is sarcomere-specific, but the ubiquitous MtCK mRNA is expressed in most tissues. Thus, separate nuclear genes encode two closely related, tissue-specific isoenzymes of MtCK. Our finding that multiple genes encode different mitochondrial protein isoenzymes is rare.     

Isolation and characterization of a cDNA clone encoding rat nucleoside diphosphate kinase

A cDNA clone for cytosolic nucleoside diphosphate (NDP) kinase was isolated from a cDNA library of rat skeletal muscle using synthetic oligonucleotides as probes. The clone constitutes a 621-base pair cDNA sequence including the 456-base pair coding region and 137-base pair 3'-untranslated one with polyadenylation site. The complete primary structure of NDP kinase was deduced from the coding sequence. An NH2-terminal amino acid sequence analysis suggested that the translated enzyme protein suffered proteolytic cleavage followed by modification at the alpha-NH2 group of the newly produced NH2-terminal amino acid residue. Taking this into account, it was tentatively concluded that the mature NDP kinase consists of 147 amino acid residues with a molecular weight of 16,724. Northern blot hybridization analysis showed that NDP kinase mRNA could be detected in total RNA fractions of brain, spleen, heart, lung, liver, kidney, testis as well as skeletal muscle, and that there was no difference in the size of mRNAs from these tissues. Tissue distribution of the mRNA nearly paralleled those of protein moiety and activity of the enzyme.     

Conserved and unique sequences in the 3'-untranslated region of rat smooth-muscle alpha-actin mRNA

We have isolated a cDNA clone corresponding to rat smooth-muscle alpha-actin mRNA [Hsu and Frankel, J. Biol. Chem. 262 (1987) 9594-9600]. We present here the sequence of the 3'-untranslated region (3'-UTR) of the cDNA. By comparison with the reported sequence of the chicken gene, this 3'-UTR region contains a conserved 36-bp sequence and a unique 48-bp G + C-rich sequence. An RNA probe containing only the 3'-UTR of the cDNA was synthesized and shown to be specific for smooth-muscle alpha-actin message.     

Molecular cloning and nucleotide sequence of cDNA encoding human muscle glycogen debranching enzyme.

cDNA comprising the entire length of the human muscle glycogen debranching enzyme was cloned and its nucleotide sequence determined. The debrancher mRNA includes a 4545-base pair coding region and a 2371-base pair 3'-nontranslated region. The calculated molecular mass of the debrancher protein derived from cDNA sequence is 172,614 daltons, consistent with the estimated size of purified protein (Mr 165,000 +/- 500). A partial amino acid sequence (13 internal tryptic peptides with a total of 213 residues) determined on peptides derived from purified porcine muscle debrancher protein confirmed the identity of the cDNA clone. Comparison of the amino acid sequence predicted from the human glycogen debrancher cDNA with the partial protein sequence of the porcine debrancher revealed a high degree (88%) of interspecies sequence identity. RNA blot analysis showed that debrancher mRNA in human muscle, lymphoblastoid cells, and in porcine muscle are all similar in size (approximately 7 kilobases). Two patients with inherited debrancher deficiency had a reduced level of debrancher mRNA, whereas two other patients had no detectable abnormality in RNA blots. The isolation of the debrancher cDNA and determination of its primary structure is an important step toward defining the structure-function relationship of this multifunctional enzyme and in understanding the molecular basis of the type III glycogen storage disease.     

The murine Ah locus. Comparison of the complete cytochrome P1-450 and P3-450 cDNA nucleotide and amino acid sequences

Mouse cytochrome P1-450 and P3-450 are most closely associated with induced aryl hydrocarbon (benzo[a]pyrene) hydroxylase (EC 1.14.14.1) and acetanilide 4-hydroxylase activity, respectively. Full-length cDNA clones of P1-450 and P3-450 were generated from mRNA isolated from 3-methylcholanthrene-treated C57BL/6N mouse liver. P1-450 cDNA is 2620 nucleotides in length and has a coding region (base 110 to 1,675) that produces a protein with 521 residues (Mr = 58,914). P3-450 cDNA is 1,894 nucleotides in length and yields a protein with 513 residues (Mr = 58,183). P1-450 mRNA is the first reported example in mouse in which UAG is used as the termination codon. P1-450 and P3-450, both induced by polycyclic hydrocarbons and regulated by the Ah receptor, exhibit overall nucleotide and protein homology of 68, and 73%, respectively. Segments of high homology, interspersed with regions of low homology, support the hypothesis of gene conversion or unequal crossing over as possible mechanisms for divergence of these two genes. Mouse P1-450 and P3-450 cDNAs were compared with previously published data on rat P-450e cDNA and rabbit form 2 protein, corresponding to two P-450 genes from the "phenobarbital inducible" P-450 gene subfamily. Nucleotide homology between a member of either gene subfamily is about 30%, and protein homology is about 15%, suggesting that the Ah locus-associated P-450 gene subfamily diverged from the phenobarbital inducible P-450 subfamily more than 200 million years ago. An N-terminal and a C-terminal cysteinyl fragment corresponding to the regions around P1-450 Cys-158 and Cys-458, respectively, are the only two cysteinyl peptides conserved among all four proteins compared. Because of greater homology in the C-terminal conserved cysteinyl fragment between the two gene subfamilies and a greater hydrophobic pocket in the C-terminal conserved cysteinyl fragment, the data favor this cysteine as the more likely candidate for the thiolate ligand to the heme iron in the P-450 enzyme active-site.     

Probable cloning artefacts previously interpreted as unusual leader sequences of rodent ornithine decarboxylase mRNAs--a cautionary tale

Messenger RNAs that have structurally unusual 5' leaders attract interest and provoke conjecture. Cloning and sequencing of two rodent ornithine decarboxylase (ODC) cDNAs, those for mouse [Kahana and Nathans, Proc. Natl. Acad. Sci. USA 82 (1985) 1673-1677] and, recently as published in this journal, for rat [Van Kranen et al., Gene 60 (1987) 145-155], have indicated the presence of such features. In both cases, the leader is unusually long and contains multiple AUG start codons preceding that which encodes the N terminus of the protein. In addition, the leader of the rat clone contains a 54-nt perfect inverted repeat. Because ODC expression appears to be regulated translationally, functional implications immediately suggest themselves. Certain unusual features of the mouse cDNA have proven artefactual [Brabant et al., Proc. Natl. Acad. Sci. USA 85 (1988) 2200-2204; Katz and Kahana, J. Biol. Chem. 263 (1988) 7604-7609]. It is likely that the putative leader sequence of rat ODC cDNA also resulted from a cloning artefact.     

Molecular cloning and characterization of cDNAs coding for apo-polysialoglycoprotein of rainbow trout eggs. Multiple mRNA species transcribed from multiple genes contain diverged numbers of exact 39-base (13-amino acid) repeats

Polysialoglycoprotein (PSGP) of unfertilized eggs of rainbow trout (Salmo gairdneri) consists of tandem repeats (about 25) of a glycotridecapeptide, Asp-Asp-Ala-Thr*-Ser*-Glu-Ala-Ala-Thr*-Gly-Pro-Ser-Gly (* denotes the attachment site of a polysialoglycan chain) (Kitajima, K., Inoue, Y., and Inoue, S. (1986) J. Biol. Chem. 261, 5262-5269). By using oligodeoxynucleotide probes based on the above sequence, we isolated a genomic clone for apoPSGP which contains 39-base pair repeats (5'-GACGACGCCACCTCTGAAGCT-GCGACCGGCCCGTCTGGC-3') encoding the tridecapeptide. Using a fragment of this genomic DNA as a probe, we next screened a cDNA library constructed with mRNA from immature ovaries of rainbow trout. Nucleotide sequencing analyses of cDNA clones thus obtained revealed that apoPSGP is encoded by multiple mRNA species consisting of diverged numbers (6-32) of the 39-base repeat encoding the tridecapeptide unit and homologous 5'- and 3'-bordering regions. The encoded protein consists of three distinct regions: the N-region consisting of a putative signal peptide and a pro-peptide, the R-region containing diverged numbers of the tandem repeat of 13-amino acid residues, and the C-region with six amino acid residues. Southern blot analysis showed that multiple mRNAs are transcribed from multiple genes for apoPSGP containing diverged numbers of the 39-base pair repeat. Thus, the genes for apoPSGP constitute a multigene family. Expression of the mRNAs is stage and organ specific, i.e. they are expressed only in immature ovaries and not in mature ovaries or in any other organ.