Distinct mouse DNA sequences enable establishment and persistence of plasmid DNA polymers in mouse cells

Balanced expression of single subunits in a multisubunit protein, achieved by cell fusion of individual transfectants

To establish stable cell lines that produce recombinant multisubunit proteins, it is usually necessary to cotransfect cells with several independent gene constructs. Here, we show that a stepwise fusion of individually transfected cells, results in a fused cell-line that secretes a complete multisubunit protein. Functional expression of recombinant multisubunit proteins may require a defined expression ratio between each protein subunit. The cell-fusion technology described allows a predefined expression level of each subunit. Using SIgA as a model protein we demonstrate that the majority of the fused cells inherit the molar expression ratio of the parental transfected cells. These results indicate that simplified screening of clones expressing the expected subunit ratios may be possible using the cell-fusion technology. This technology may therefore be an alternative to generic transfection methods for the establishment of cells that produce multiprotein complexes such as antibodies, receptors, ion channels and other multisubunit proteins.

An efficient homologous recombination vector pTV(I) contains a hot spot for increased recombinant protein expression in Chinese hamster ovary cells

We employed reverse genetics to clone a 5.0 kb genomic DNA hot spot HIRPE (hot spot for increased recombinant protein expression) flanking the plasmid integration site from a recombinant Chinese hamster ovary (CHO) cell line. DNA sequence analysis of the 5.0 kb fragment revealed that HIRPE is enriched for repetitive elements, Alu-like sequences and matrix-associated regions that are known to be linked with transcriptionally active regions in a number of mammalian systems. The construction of a homologous recombination vector, pTV1, containing the 5.0 kb HIRPE genomic DNA, a recombinant gene human CTLA4-Ig, and the dhfr gene as a positive selection marker is described. It was observed that the pTV1 vector targeted the CTLA4Ig gene to a preferred locus in the CHO genome contributing to high recombinant gene expression in transfected CHO cells. Preliminary studies suggest that similar to the observation with the parental cell line, pTV1-generated transfectomas that were analyzed appear to harbor an inverted duplication of the genomic DNA at the plasmid integration site.

Cis-acting effects of sequences within 2.4-kb upstream of the human c-myc gene on autonomous plasmid replication in HeLa cells

We have used density shift analysis to monitor the autonomous replicating sequence (ARS) activity of plasmids containing various DNA fragments from the 5'-flanking region of the human c-myc gene. The ARS activity of certain of these plasmids implied that structures in the c-myc DNA could be recognized for the initiation of replication in the absence of chromosomal integration. The plasmid pNeo.Myc-2.4 contains 2.4 contains 2.4 kb of c-myc 5'-flanking DNA, and replicated semiconservatively as a circular extrachromosomal element. Deletion derivatives of pNeo.Myc-2.4 containing either of two nonoverlapping regions of c-myc DNA semiconservatively incorporated bromodeoxyuridine into discrete populations of heavy-light supercoiled molecules to roughly the same extent as the chromosomal DNA in the same cultures. Some constructs displayed lower ARS activity, implying that distinct cis-acting sequences in the c-myc 5'-flanking DNA may independently affect DNA replication. The ARS activity of two separate c-myc sequences suggests that replication initiation signals are redundant in the c-myc origin. The smallest c-myc insert that displayed substantial ARS activity was 930 bp long and contained three 10/11 matches to the yeast ARS consensus and several additional features found in eukaryotic replication origins.

On the nature of origins of DNA replication in eukaryotes

Chromosomal origins of DNA replication in higher eukaryotes differ significantly from those of E. coli (oriC) and the tumor virus, SV40 (ori sequence). Initiation events appear to occur throughout broad zones rather than at specific origin sequences. Analysis of four chromosomal origin regions reveals that they share common modular sequence elements. These include DNA unwinding elements, pyrimidine tracts that may serve as strong DNA polymerase-primase start sites, scaffold associated regions, transcriptional regulatory sequences, and, possibly, initiator protein binding sites and inherently destabilized regions. Based on the novel organization of chromosomal origin regions, we propose a model for initiation of DNA replication in higher eukaryotes. Unwinding of duplex DNA during initiation may be uncoupled, both temporally and spatially, from DNA synthesis, resulting in transient single-stranded intermediates that function in lieu of conventional replication forks during chromosomal DNA replication. DNA synthesis begins subsequently at multiple sites within the unwound regions rather than at specific origin sequences.

Nuclear matrix-associated DNA fragments enhance autonomous replication of plasmids in chicken cells

Most cells of higher eukaryotes may maintain several rounds of replication of circular DNA. Efficiency of replication is usually low, and depends on the length of the circular DNA rather than on the sequence context. We have isolated and characterized several short DNA fragments that form structural sites of attachment to the nuclear matrix (nmDNA) in chicken cells, and tested whether they would enhance autonomous replication of DNA in chicken cells as compared to the vector DNA. Indeed, a several-fold increase in a short-term replication efficiency was detected using a semi-conservative replication and a DpnI-resistance assay. Most of the cloned matrix-associated fragments were recovered in the nuclear matrix fraction when introduced into cultured chicken cells as a circular DNA. The data obtained suggest that the observed enhancement in the replication efficiency of the circular DNA may be due to their recruitment to the nuclear matrix by the nmDNA.

Structural homologies and functional similarities between mammalian origins of replication and amplification promoting sequences

MuNTS2, a 423 bp sequence isolated from the non-transcribed spacer of murine rDNA stimulates the amplification of cis-linked plasmid DNA in mouse cells under selective conditions. Here we demonstrate that a 180 bp subdomain of muNTS2 is highly homologous (approximately 70%) to three domains of the first well-characterized origin of replication of mammalian chromosomes, i.e. the origin of bidirectional replication (OBR) of the dihydrofolate reductase (DHFR) locus in Chinese hamster ovary (CHO) cells. When subcloned, the 180 bp homology region of muNTS2 was revealed to be essential for the amplification promoting activity of muNTS2. Fragments of the initiation zone of DNA replication from the DHFR locus of hamster cells containing the domains of homology to the mouse muNTS2 element proved also to promote DNA amplification. Thus, the screening system for amplification promoting elements turned out to detect an origin of bidirectional replication.

High-copy expression vector based on amplification-promoting sequences

We describe a new vector system that allows efficient expression of heterologous proteins in transformed mouse L fibroblasts. This is due to its persistence at high copy numbers, achieved by a 370-bp amplification promoting element (muNTS1) derived from the nontranscribed spacer of murine rDNA. Copy number determination showed that this sequence mediates a 40- to 800-fold amplification of the vector DNA in transfected L cells. High copy number was accompanied by increased expression levels of the reporter gene secreted alkaline phosphatase (SEAP). Analyzing the structural organization of multicopy plasmid DNA in mouse L cells revealed that plasmid DNA is integrated as reiterated head-to-tail concatamers into the chromosomal DNA. The vector described here can be used as a versatile high-copy expression system for heterologous proteins overcoming any limitation to enzyme-deficient cell lines.

Replication analysis of plasmid DNAs injected into Drosophila embryos

From a "shotgun" collection of DNA fragments, isolated from Drosophila melanogaster, we selected sequences that function as autonomously replicating sequences (ARS) in the yeast Saccharomyces cerevisiae. To investigate the replicative potential of such sequences in Drosophila, five of these ARS elements and also the Adh gene of D. melanogaster, which has been described earlier to have ARS function in yeast, were microinjected into developing Drosophila eggs and analysed after reisolation from first instar larvae. As an assay for DNA replication, we determined the sensitivity of recovered plasmid DNA to restriction enzymes that discriminate between adenine methylation and non-methylation. Within the limits of detection our results show that none of the plasmids replicated two or more rounds. However, a fraction of all injected plasmid DNAs, including vector DNA, seems to replicate once. The same result was obtained for a DNA sequence from mouse that had been reported to have replication origin function in mouse tissue culture cells. We excluded the possibility that methylation of the plasmids is the reason for their inability to replicate. These results demonstrate that homologous and heterologous DNA sequences that drive replication of plasmids in cells of other species are not sufficient to fulfil this function in Drosophila embryos.

An amplification-promoting sequence from mouse genomic DNA: interaction with a trans-acting factor that also affects gene expression

We previously identified murine DNA sequences that stimulate the amplification of cis-linked plasmid DNA in mouse cells under selective conditions (Holst et al., 1988). Here we focus on the structural features of one of these elements, the 229-bp element 5. The amplification-promoting activity was fully recovered from the middle part of element 5. The active region interacted in a sequence-specific way with a protein from nuclear extracts. Using footprinting analyses the binding region was characterized and subsequently shown to be functionally active as an amplification-promoting sequence, whereas a mutated binding site was inactive. Therefore, cis-acting element 5 functioned via interaction with a trans-acting factor. The same binding site was also active as a promoter element for RNA polymerase II transcription, because it efficiently reconstituted the activity of a truncated herpes simplex virus type 1 (HSV-1) thymidine kinase (tk) gene promoter lacking the distal Sp1 binding site. Thus, the same protein seems to function in both RNA polymerase II transcription and DNA amplification. Possible relationships between both functions are discussed.

Autonomous replication of a DNA fragment containing the chromosomal replication origin of the human c-myc gene

The c-myc genes of HeLa cells are preferentially replicated in the transcriptional direction, from chromosomal origin sequences which display cell type-specific activity. Using a run-off replication assay involving in vitro extension of replication forks initiated in intact HeLa cells, bidirectional replication was observed to begin within a 3.5 kb domain 5' to the c-myc gene. To characterize the replication origin further a 2.4 HindIII-Xhol subfragment of the c-myc 5' flanking DNA was cloned in a selectable vector and transfected into HeLa cells. The resulting pNeo.Myc-2.4 construct persisted as a circular extrachromosomal element for more than 300 cell generations under selection, with recovery of approximately 500-1000 times the mass of plasmid initially introduced into the cells. Extrachromosomal circular pNeo.Myc-2.4 monomer was reisolated in supercoiled form, along with oligomeric and miniplasmid variants which had been generated in vivo; however, chromosomally integrated copies of the plasmid were not detectable in cultures containing extrachromosomal pNeo.Myc-2.4. The recovered pNeo.Myc-2.4 plasmid was resistant to Dpnl digestion and sensitive to Mbol digestion. After transfection with pNeo.Myc-2.4 BrUdR pulse labeling of long-term or short-term cultures demonstrated that the plasmid replicated semiconservatively, under controls similar to those imposed on chromosome replication. Bisection of the pNeo.Myc-2.4 insert suggested that c-myc 5' flanking DNA within 1.2 kb 5' to promoter P1 was sufficient to confer autonomously replicating sequence activity on the plasmid vector in transient replication assays.

Cis-acting sequences from mouse rDNA promote plasmid DNA amplification and persistence in mouse cells: implication of HMG-I in their function

Searching for amplification promoting sequences within the murine rDNA cistrons, we isolated two elements from the nontranscribed spacer region. These 370 bp and 423 bp long cis-acting elements, referred to as muNTS1 and muNTS2, are localized 4.1 kb and 4.6 kb upstream the RNA polymerase I transcriptional start site. They contain ca. 50 bp long AT-rich sequences that strongly interact with a protein from nuclear extracts. The protein could be purified and identified as HMG-I. A synthetic oligonucleotide encompassing the AT-rich stretch from muNTS1 is able to substitute for the muNTS elements. A similar sequence from the nontranscribed spacer of rat has previously been reported to be important for the function of the RNA polymerase I enhancer (1). Therefore the interaction of HMG I with the muNTS elements may play a role both in the stimulation of DNA amplification and transcription.

Identification of an amplification promoting DNA sequence from the hypotrichous ciliate Stylonychia lemnae

The macronucleus of the hypotrichous ciliate Stylonychia lemnae contains a 1218 bp long DNA molecule which becomes highly amplified during vegetative growth due to a continuous overreplication over a long time range. The region which is located upstream the open reading frame of the overamplified 1.2kbp Stylonychia DNA molecule enabled plasmids containing an inefficiently transcribed thymidine kinase gene to persist and amplify upon transfection into mouse L fibroblasts under selective conditions. This region contains long AT-rich stretches. The AT-rich sequences interact with a previously characterized HMG-I like protein from mouse Ehrlich ascites tumour cells. A binding activity for AT-rich stretches could also be identified in macronuclear extracts from Stylonychia lemnae. We suggest a common mechanism for overamplification in Stylonychia macronuclei during vegetative growth and amplification of plasmid DNA in heterologous mouse cells under the influence of a common element.

G-repeats: a novel hamster sine family

A fragment of a hamster repetitive element inserted into the aprt locus of a radiation-induced mutant is a member of a novel interspersed repetitive (SINE) family constituting approximately 0.3 to 0.5% of the hamster genome (30 to 50,000 family members). Since this family was first detected in a gene rearranged after exposure to gamma irradiation, we have called these G-repeats. In common with other repetitive elements, members of this family are about 300 bp in length, are highly divergent (an average of 30% from the consensus), have an A + T rich sequence flanking one side, and can be found in short polydisperse circular (SPC) DNA. In contrast to some other families, G-repeats are not flanked by short direct repeats and lack sequences corresponding to the RNA polymerase III consensus promoter.