Electroporation: application to human lymphoid cell lines for stable introduction of a transactivator gene of human T-cell leukemia virus type I.

Conditions were developed for stable introduction of foreign DNA into human lymphoid cell lines by electroporation. To introduce stably the p40 gene of human T-cell leukemia virus type I (HTLV-I) into the human lymphoid cell line Jurkat, the p40 expressing plasmid, pMAXRHneo-1, which carries the neo resistant gene, was transfected into Jurkat cells at a voltage of 2500 V and capacitance of 21.7 microF, and stable transformants were screened for neo (G418) resistance. The frequency of transformants was more than one per 2 x 10(5) cells used initially. Clones that were resistant to G418 were shown to have the p40 gene integrated into the host genome and to express mRNA and protein from the introduced plasmid. Expression of p40 in the transformed Jurkat cells was also confirmed by testing the trans-activating effect of HTLV-I enhancer by p40. High frequencies of stable transformations of 10(-4) to 10(-6) were also reproducibly obtained by electroporation of the human T cell lines HSB-2 and TALL-1, a human B cell line Raji, a human monocytic cell line U937, and a human erythroleukemia cell line K562. These results demonstrate that electroporation is a very efficient method for introducing foreign DNA into human lymphoid cell lines.     

Establishment and characterization of hamster cell lines transformed by restriction endonuclease fragments of adenovirus 5.

We have established a library of hamster cells transformed by adenovirus 5 DNA fragments comprising all (XhoI-C, 0 to 16 map units) or only a part (HindIII-G, 0 to 7.8 map units) of early region 1 (E1: 0 to 11.2 map units). These lines have been analyzed in terms of content of viral DNA, expression of E1 antigens, and capacity to induce tumors in hamsters. All cells tested were found to express up to eight proteins encoded within E1A (0 to 4.5 map units) with apparent molecular weights between 52,000 (52K) and 25K. Both G and C fragment-transformed lines expressed a 19K antigen encoded within E1B (4.5 to 11.2 map units), whereas an E1B 58K protein was detected in C fragment-transformed, but not G-fragment-transformed, lines. No clear distinction could be drawn between cells transformed by HindIII-G and by XhoI-C in terms of morphology or tumorigenicity, suggesting that the E1B 58K antigen plays no major role in the maintenance of oncogenic transformation, although possible involvement of truncated forms of 58K cannot be ruled out. Sera were collected from tumor-bearing animals and examined for ability to immunoprecipitate proteins from infected cells. The relative avidity of sera for different proteins was characteristic of the cell line used for tumor induction, and the specificity generally reflected the array of viral proteins expressed by the corresponding transformed cells. However, one notable observation was that even though all transformed lines examined expressed antigens encoded by both the 1.1- and 0.9-kilobase mRNAs transcribed from E1A, tumor sera made against these lines only precipitated products of the 1.1-kilobase message. Thus, two families of E1A proteins, highly related in terms of primary amino acid sequence, appear to be immunologically quite distinct.     

稳定表达重组小鼠FAPα蛋白细胞株的构建

采用RT-PCR方法从BALB/c胚鼠成纤维细胞克隆FAPα基因,将其连接至表达栽体pTd-FL-N,转化Stbl3感受态.筛选重组质粒,经酶切、PCR检测及测序鉴定,证实表达质粒构建正确.将表达载体转染HEK293细胞,经G418筛选单克隆阳性细胞,采用Western blot技术证实稳定表达FAPα细胞株构建成功.通过流式细胞术确定FAPa蛋白可定位表达于细胞膜上.     

Protoplast-mediated gene transfer into human leukemia (K562) cells

We have examined the usefulness of a protoplast fusion technique as a tool to transfer cloned genes into hematopoietic cells. Protoplasts carrying cloned plasmids, which would express specific markers when successfully transfected into human cells, were prepared and fused with human leukemic cell line K562 cells using polyethylene glycol as a fusogenic factor. As a result, K562 cells fused with protoplasts containing a plasmid pSV2-cat constructed to code for chloramphenicol acetyltransferase (CAT) expressed CAT activity efficiently. K562 cells were also readily transformed to geneticin-(G418) resistant cells following fusion with protoplasts carrying a plasmid pSV2-neo-SV-gpt, which confers the resistance of mammalian cells to G418 and mycophenolic acid. It was also demonstrated that the plasmid genome was stably integrated into the chromosomal DNA of G418-resistant K562 cells. Our results proved that protoplast fusion could be used to study the specific expression and the biologic activities of cloned genes in human hematopoietic cells.     

Transformation of differentiated rat hepatocytes with adenovirus and adenovirus DNA

Primary cultures of hepatocytes isolated by collagenase perfusion of adult rats were transformed by infection with adenovirus type 5 or transfection with adenovirus DNA. Total virion DNA or recombinant plasmid DNA containing the adenovirus E1A and E1B genes transformed hepatocytes at comparable frequencies. No foci of replicating hepatocytes were detected after transfection with a plasmid containing the E1A gene alone. The frequency of transformation by the adenovirus E1A and E1B genes was dependent on the composition of the culture medium. Transformation occurred at a low frequency when the transfected hepatocytes were maintained in a chemically defined medium (CDM), but the frequency was enhanced 8- to 10-fold when the cells were maintained in (i) serum-supplemented medium or (ii) CDM supplemented with epidermal growth factor. Cell lines derived from the adenovirus-transformed colonies of hepatocytes expressed adenovirus E1A and E1B RNAs. When hepatocytes were maintained in CDM supplemented with dimethyl sulfoxide and transfected with plasmids containing the E1A and E1B genes, it was possible to derive cell lines that retained the ability to express several liver-specific genes, including albumin, transferrin, hemopexin, and the third component of complement. The amount of albumin secreted per cell varied from 1 to 5 pg per cell per 24 h, and in one cell line it was below detectable levels by passage 9. Adenovirus-transformed hepatocytes were not tumorigenic when inoculated subcutaneously into neonatal syngeneic rats. We conclude that the adenovirus E1A and E1B genes are capable of transforming adult rat hepatocytes, a differentiated epithelial cell type.     

Ecdysone-inducible foreign gene expression in stably-transformed lepidopteran insect cells

Cultured cell lines that can be stably transformed with inducible gene constructs could prove extremely valuable for the continuous and economical production of recombinant proteins. Toward this goal, we have established 11 clones (designated NISES-BoMo-DK1 to 11) from a previously reported silkworm cell line, NISES-BoMo-DZ. Nine of these clonal lines showed a distinct morphological change. i.e., cell aggregation, in response to treatment with 1 microM 20-hydroxyecdysone (20E). DK10 cells transfected with various reporter assay plasmids under optimal conditions (i.e., 20-30% transfection efficiency) showed inducibility of gene expression by 20E. The 20E treatment of the prototypical DK10 cells resulted in a simultaneous, transient increase of the nuclear ecdysone (E) receptor levels. Further, this inducibility was also observed in a DK10 cell line stably transformed with the reporter plasmid that carries the hygromycin-resistance gene. This offers an opportunity to achieve efficient, continuous production of recombinant proteins. It could also allow high throughput screening for potential E agonists.     

Cytochrome b5 reductase and cytochrome b5 support the CYP2E1-mediated activation of nitrosamines in a recombinant Ames test

With CYP2E1 in vitro both the first and the second electron of the catalytic cycle can come from cytochrome b(5) via either NADPH-cytochrome P450 reductase or NADH-cytochrome b(5) reductase, and the presence of cytochrome b(5) stimulates CYP2E1 turnover both in vitro and in vivo. To determine whether electron input via the NADH-dependent pathway was similarly functional in whole cells and necessary for the stimulation by cytochrome b(5), we constructed five plasmids designed to express human CYP2E1 in various combinations with cytochrome b(5) reductase, cytochrome b(5), and cytochrome P450 reductase. CYP2E1 activity in Salmonella typhimurium cells transformed with each plasmid was assessed by mutagenic reversion frequency in the presence of dimethylnitrosamine. A fivefold increase in reversion frequency when cytochrome b(5) was coexpressed with P450 reductase was abolished by disruption of heme-binding in cytochrome b(5) by site-directed mutagenesis (His68Ala), suggesting that electron transfer to cytochrome b(5) was necessary for the stimulation. Addition of cytochrome b(5) reductase to the cytochrome b(5)/P450 reductase coexpression plasmid did not further increase the stimulation by cytochrome b(5), but b(5) reductase could support CYP2E1 activity in the absence of P450 reductase at a level equivalent to that obtained with just CYP2E1 and P450 reductase. Neither cytochrome b(5) reductase nor cytochrome b(5) alone could support CYP2E1 activity. These results demonstrate that the cytochrome b(5) reductase/cytochrome b(5) pathway can support CYP2E1 activity in bacterial cells.     

Transformation system for an asporogenous methylotrophic yeast, Candida boidinii: cloning of the orotidine-5''-phosphate decarboxylase gene (URA3), isolation of uracil auxotrophic mutants, and use of the mutants for integrative transformation.

An integrative transformation system was established for an asporogenous methylotrophic yeast, Candida boidinii. This system uses a uracil auxotrophic mutant of C. boidinii as the host strain in combination with its URA3 gene as the selectable marker. First, the C. boidinii URA3 gene coding for orotidine-5'-phosphate decarboxylase (ODCase) was cloned by using complementation of the pyrF mutation of Escherichia coli. Next, the host ODCase-negative mutant strains (ura3 strains) were isolated by mutagenesis and selection for 5-fluro-orotic acid (5-FOA) resistance. Five ura3 host strains that exhibited both a low reversion rate and good methylotrophic growth were obtained. All of these strains could be transformed to Ura+ phenotype with a C. boidinii URA3-harboring plasmid linearized within the Candida DNA. The transformants had a stable Ura+ phenotype after nonselective growth for 10 generations. These results and extensive Southern analysis indicated that the linearized plasmid was integrated into the host chromosomal DNA by homologous recombination at the URA3 locus in C. boidinii.     

Expression of constitutively active 4EBP-1 enhances p27<Superscript>Kip1</Superscript> expression and inhibits proliferation of MCF7 breast cancer cells

BACKGROUND: Eukaryotic initiation factor 4E (eIF4E) is essential for cap-dependent initiation of translation. Cell proliferation is associated with increased activity of eIF4E and elevated expression of eIF4E leads to tumorigenic transformation. Many tumors express very high levels of eIF4E and this may be a critical factor in progression of the disease. In contrast, overexpression of 4EBP, an inhibitor of eIF4E, leads to cell cycle arrest and phenotypic reversion of some transformed cells. RESULTS: A constitutively active form of 4EBP-1 was inducibly expressed in the human breast cancer cell line MCF7. Induction of constitutively active 4EBP-1 led to cell cycle arrest. This was not associated with a general inhibition of protein synthesis but rather with changes in specific cell cycle regulatory proteins. Cyclin D1 was downregulated while levels of the CDK inhibitor p27Kip1 were increased. The levels of cyclin E and CDK2 were unaffected but the activity of CDK2 was significantly reduced due to increased association with p27Kip1. The increase in p27Kip1 did not reflect changes in p27Kip1 mRNA or degradation rates. Rather, it was associated with enhanced synthesis of the protein, even though 4EBP-1 is expected to inhibit translation. This could be explained, at least in part, by the ability of the p27Kip1 5'-UTR to mediate cap-independent translation, which was also enhanced by expression of constitutively active 4EBP-1. CONCLUSIONS: Expression of active 4EBP-1 in MCF7 leads to cell cycle arrest which is associated with downregulation of cyclin D1 and upregulation of p27Kip1. Upregulation of p27Kip1reflects increased synthesis which corresponds to enhanced cap-independent translation through the 5'-UTR of the p27Kip1 mRNA.     

Analysis of the Mechanism for Reversion of a Disrupted Gene

A positive selection system for intrachromosomal recombination in Saccharomyces cerevisiae has been developed. This was achieved by integration of a plasmid containing an internal fragment of the HIS3 gene into its chromosomal location. This resulted in two copies of the HIS3 gene one with a terminal deletion at the 3' end and the other with a terminal deletion at the 5' end. Reversion of the gene disruption could be brought about by plasmid excision, unequal sister chromatid exchange or sister chromatid conversion. The purpose of this study was to define the mechanisms involved in reversion of the gene disruption. The frequency of plasmid excision could be determined by placing a yeast sequence bearing an origin of replication onto the plasmid that was subsequently integrated into the yeast genome. Unequal sister chromatid exchange and conversion could be distinguished by determining the nature of the reciprocal product by Southern blotting. The results indicate that reversion might occur mainly by conversion between sister chromatids. This is because the frequency of plasmid excision was about two orders of magnitude lower than the overall frequency of reversion and no reciprocal product indicative of sister chromatid exchange was found. The findings of this presentation suggest that conversion might be an important mechanism for recombination of sister chromatids and possibly for repair of damaged DNA in S or G2.     

Analyses of mutation in pSV2gpt-transformed CHO cells

We have developed a system to study mutations which affect expression of the E. coli xanthine-guanine phosphoribosyl transferase (XPRT) gene (gpt) in hypoxanthine-guanine phosphoribosyl transferase-deficient (HPRT-) Chinese hamster ovary (CHO) cells that have been transformed by the plasmid pSV2gpt. Several gpt-transformed cell lines have been isolated and characterized with respect to integrated pSV2gpt sequences, expression of the gpt gene, and cytotoxic and mutagenic responses to UV light. While the gpt-transformed CHO and wild-type CHO-K1-BH4 cell lines have similar cytotoxic responses to UV light, the gpt-transformed cell lines respond differently from the parental CHO-K1-BH4 cell line in terms of mutation induction. As with CHO-K1-BH4 HPRT mutants, spontaneous or induced XPRT mutants derived from the gpt+ cell lines can be selected for 6-thioguanine resistance (TGr). Analysis of cell-free extracts from a number of these TGr clones indicates that the mutant phenotype is due to the absence of XPRT activity. One transformant, designated AS52, has previously been described in limited detail. Here we describe additional characteristics of this cell line, as well as several related transformants.     

tsJT60, a cell cycle G0-ts mutant, becomes lethal at non-permissive temperature by transformation with adenovirus 5 when the expression of E1B gene is lacking

tsJT60, a temperature-sensitive (ts) mutant cell line of Fischer rat, is viable at both permissive (34 degrees C) and non-permissive (39.5 degrees C) temperatures. The cells grow normally in exponential growth phase at both temperatures, but when stimulated with fetal bovine serum (FBS) from G0 phase they re-enter S phase at 34 degrees C but not at 39.5 degrees. When tsJT60 cells were transformed with adenovirus (Ad) 5 wild type, they grew well at both temperatures, expressed E1A and E1B genes, and formed colonies in soft agar. When tsJT60 cells were transformed with Ad5 dl313, that lacks E1B gene, the transformed cells grew well at 34 degrees C but failed to form colony in soft agar. They died very soon at 39.5 degrees C. 3Y1 cells (a parental line of tsJT60) transformed with dl313 grew well at both temperatures, although neither expressed E1B gene nor formed colonies in soft agar. The phenotype of being lethal at 39.5 degrees C of dl313-transformed tsJT60 cells was complemented by cell fusion with 3Y1BUr cells (5-BrdU-resistant 3Y1), but not with tsJT60TGr cells (6-thioguanine resistant tsJT60). These results indicate that the lethal phenotype is related to the ts mutation of tsJT60 cells and also to the deletion of E1B gene of Ad5.     

Overproduction of Rb protein after the G1/S boundary causes G2 arrest.

The Rb protein is known to exert its activity at decision points in the G1 phase of the cell cycle. To investigate whether it may also play some role(s) at later points in the cell cycle, we used a system of rapid inducible gene amplification to conditionally overexpress Rb protein during G2 phase. A cell line expressing a temperature-sensitive simian virus 40 large T antigen (T-Ag) was stably transfected with plasmids containing the Rb cDNA linked to the simian virus 40 origin of replication: pRB-wt, pRB-fs, and pRB-Dra, carrying wild-type murine Rb cDNA, a frameshift mutation close to the beginning of the Rb coding region, and a single-amino-acid deletion in the E1A/T-Ag binding pocket, respectively. Numerous independent cell lines were isolated at the nonpermissive temperature; cell lines displaying a high level of episomal amplification of an intact Rb expression cassette following shiftdown to the permissive temperature were chosen for further analysis. Plasmid pRB-fs did not express detectable Rb antigen, while pRB-Dra expressed full-length Rb protein. The Dra mutation has previously been shown to abrogate phosphorylation as well as T-Ag binding. Fluorescence-activated cell sorting (FACS) analysis revealed that cultures induced to overexpress either wild-type or Dra mutant Rb proteins were significantly enriched for cells with a G2 DNA content. Cultures that amplified pRB-fs or rearranged pRB-wt and did not express Rb protein had normal cell cycle profiles. Double-label FACS analysis showed that cells overexpressing Rb or Rb-Dra proteins were uniformly accumulating in G2, whereas cells expressing endogenous levels of Rb were found throughout the cell cycle. These results indicate that Rb protein is interacting with some component(s) of the cell cycle-regulatory machinery during G2 phase.     

Expression of adenovirus E1a and E1b gene products and the Escherichia coli XGPRT gene in KB cells

The recombinant plasmid pSV2-gpt, which contains the Escherichia coli XGPRT gene under the control of a simian virus 40 early promoter, was modified to contain the type 2 adenovirus (Ad2) XhoI-C (0 to 15.5 map units) restriction endonuclease fragment. Plasmid (pLB206) DNA was introduced into human KB cells by Ca2+-mediated DNA transfection, and transformants were selected in medium containing xanthine, aminopterin, and mycophenolic acid, as a consequence of expression of the dominant, selectable XGPRT gene. A series of 13 gpt+ cell lines were isolated and tested for their ability to complement Ad5 deletion mutants in E1a (H5dl312) and E1b (H5dl315). Four classes of gpt+ KB cell lines were identified, including clones constitutively expressing both E1a and E1b, only E1a, or only E1b or not expressing either E1a or E1b. DNA and RNA filter transfer hybridization analysis substantiated the conclusions that those cell lines capable of complementing viral host range mutants contained the appropriate viral DNA sequences and cytoplasmic polyadenylated RNA species. DNA filter transfer hybridization studies also revealed that the transfected vector DNA was stably integrated into chromosomal DNA in the KB transformants and the number of integrated sites ranged from 1 to 3. The gpt+ KB cell line that only expressed E1b gene functions only contained viral E1b gene sequences; those cell lines that expressed neither E1a nor E1b gene function contained only small or no regions of Ad2 DNA. When weaned off the selective medium, transformed KB cell lines stably maintained their inserted DNA in the absence of selective pressure and could easily be adapted to growth in suspension culture.     

Construction of an EBV-derived shuttle vector for studying the influence of transcription on mutagenesis

We have constructed an EBV-derived shuttle vector, pF1-EBV, which replicates in human cells as an extrachromosomal element. The structural sequences of the gene encoding the bacterial xanthine-guanine-phosphoribosyltransferase (gpt) were fused to the promoter and presumptive control region of the mouse metallothionein I (MT-I) gene. Human 293 cells transformed with the recombinant plasmid synthesized gpt mRNA and the expression of the gene was inducible by zinc. The gpt gene offers a convenient system of selection for mutant plasmids by transformation into the appropriate gpt- E. coli strain. A clonal cell line created by establishment of the pF1-EBV shuttle vector showed a spontaneous gpt- frequency of 2.10(-5). An increase in mutation frequency above background was induced by mutagenizing this cell line with the alkylating agent N-methyl-N-nitrosourea (MNU). The recombinant molecule that we have constructed should provide a tool for studying the role of gene expression in DNA repair and mutagenesis.     

Role of uracil-DNA glycosylase in mutation avoidance by Streptococcus pneumoniae.

Uracil-DNA glycosylase activity was found in Streptococcus pneumoniae, and the enzyme was partially purified. An ung mutant lacking the activity was obtained by positive selection of cells transformed with a plasmid containing uracil in its DNA. The effects of the ung mutation on mutagenic processes in S. pneumoniae were examined. The sequence of several malM mutations revertible by nitrous acid showed them to correspond to A.T----G.C transitions. This confirmed a prior deduction that nitrous acid action on transforming DNA gave only G.C----A.T mutations. Examination of malM mutant reversion frequencies in ung strains indicated that G.C----A.T mutation rates generally were 10-fold higher than in wild-type strains, presumably owing to lack of repair of deaminated cytosine residues in DNA. No effect of ung on mutation avoidance by the Hex mismatch repair system was observed, which means that uracil incorporation and removal from nascent DNA cannot be solely responsible for producing strand breaks that target nascent DNA for correction after replication. One malM mutation corresponding to an A.T----G.C transition showed a 10-fold-higher spontaneous reversion frequency than other such transitions in a wild-type background. This "hot spot" was located in a directly repeated DNA sequence; it is proposed that transient slippage to the wild-type repeat during replication accounts for the higher reversion frequency.     

Nonsense mutation in open reading frame E2 of bovine papillomavirus DNA.

Oligonucleotide-directed mutagenesis was used to construct a nonsense mutation in open reading frame (ORF) E2 of bovine papillomavirus DNA. A single base substitution mutation was constructed which converted a TAC codon into a TAG amber stop codon at a position in the ORF that did not overlap with any other viral ORFs. Full-length viral DNA containing the mutation induced only approximately 2% of the transformed foci of mouse C127 cells that were induced by wild-type DNA. In a different transformation assay, approximately one-half of the C127 cells which had acquired the mutant DNA gave rise to colonies containing at least some cells with transformed morphology. The constructed mutation was maintained in cell lines derived from cells which had acquired the mutant viral DNA, but the viral DNA appeared to be integrated into the host cell genome. Genetic mapping experiments proved that the constructed amber mutation caused the decrease in focus-forming activity and the integration of the mutant viral DNA. These results suggest that ORF E2 encodes a protein which is involved either directly or indirectly in some aspects of oncogenic transformation by bovine papillomavirus and in maintaining the viral DNA as a plasmid in transformed cells.