Recombination mediates production of an extrachromosomal circular DNA containing a transposon-like human element, THE-1

An abundant class of HeLa extrachromosomal circular DNA containing the transposon-like element, THE-1, is shown to arise via site specific recombination. The chromosomal locus from which these circles are derived, however, is single-copy. Northern blot analysis detects homology to two polyadenylated RNAs in HeLa cells. The possible presence of an origin of replication and its role in generating these small polydisperse circles is discussed.     

A group of repetitive human DNA families that is characterized by extrachromosomal oligomers and restriction-fragment length polymorphism

We have recently reported a novel human repetitive DNA (Sau3A family) that exists both in the chromosomes and in the extrachromosomal fraction. Several more clones that hybridized with the Sau3A family were isolated from the extrachromosomal fraction of HeLa cells. Use of these clones as probes has revealed that at least four different types of oligomeric forms of DNA are present in the extrachromosomal fraction. The oligomers consist of one, two, five or 12 subunits of basic 170 base-pair unit DNA, or superimposed forms of two of them. Nucleotide sequencing of these clones indicated that the clones have 70 to 90% sequence homology with human alphoid satellite DNA. These DNA sequences are present also in the chromosomes, as tandemly repeated DNA sequences, and exhibit a considerable degree of restriction-fragment length polymorphism. These results, taken together with the previous findings on Sau3A family DNA, suggest that there is a group of recombination-prone repetitive DNA families in human chromosomes.     

Double minute chromosomes carrying the human multidrug resistance 1 and 2 genes are generated from the dimerization of submicroscopic circular DNAs in colchicine-selected KB carcinoma cells.

This study characterizes amplified structures carrying the human multidrug resistance (MDR) genes in colchicine-selected multidrug resistant KB cell lines and strongly supports a model of gene amplification in which small circular extrachromosomal DNA elements generated from contiguous chromosomal DNA regions multimerize to form cytologically detectable double minute chromosomes (DMs). The human MDR1 gene encodes the 170-kDa P-glycoprotein, which is a plasma membrane pump for many structurally unrelated chemotherapeutic drugs. MDR1 and its homolog, MDR2, undergo amplification when KB cells are subjected to stepwise selection in increasing concentrations of colchicine. The structure of the amplification unit at each step of drug selection was characterized using both high-voltage gel electrophoresis and pulsed-field gel electrophoresis (PFGE) techniques. An 890-kb submicroscopic extrachromosomal circular DNA element carrying the MDR1 and MDR2 genes was detected in cell line KB-ChR-8-5-11, the earliest step in drug selection in which conventional Southern/hybridization analyses detected MDR gene amplification. When KB-ChR-8-5-11 was subjected to stepwise increases in colchicine, this circular DNA element dimerized as detected by PFGE with and without digestion with Not 1, which linearizes the 890-kb amplicon. This dimerization process, which also occurred at the next step of colchicine selection, resulted in the formation of cytologically detectable DMs revealed by analysis of Giemsa-stained metaphase spreads.     

rRNA genes of Naegleria gruberi are carried exclusively on a 14-kilobase-pair plasmid.

An extrachromosomal DNA was discovered in Naegleria gruberi. The 3,000 to 5,000 copies per cell of this 14-kilobase-pair circular plasmid carry all the 18S, 28S, and 5.8S rRNA genes. The presence of the ribosomal DNA of an organism exclusively on a circular extrachromosomal element is without precedent, and Naegleria is only the third eucaryotic genus in which a nuclear plasmid DNA has been found.     

Characterization of cloned human alphoid satellite with an unusual monomeric construction: evidence for enrichment in HeLa small polydisperse circular DNA.

A recombinant DNA plasmid library was constructed from HeLa cell extrachromosomal circular DNA and the sequence organization of one family of clones, which contain sequences enriched in HeLa small polydisperse circular (spc) DNA, was studied by restriction mapping and base sequence analysis. Restriction mapping revealed each clone to be composed solely of imperfect tandem repeats of ca. 170 bp. The entire DNA sequence of one clone was determined and found to be alphoid satellite with a variant monomeric construction.     

A transposon-like element in the deletion-prone region of the dystrophin gene.

The central portion of the dystrophin gene locus is a preferential site for deletions causing progressive muscular dystrophy of the Duchenne type (DMD). The nucleotide sequence of a deletion junction fragment from a DMD patient was determined, revealing that the proximal breakpoint of the deletion in intron 43 fell within the sequence of a transposon-like element. This segment, belonging to the THE-1 family of human transposable elements, is normally present in a complete form in intron 43 of the dystrophin gene. The deletion mutation was maternally transmitted and eliminated two-thirds of the THE-1 element. Analysis of DNA from additional DMD patients revealed a second deletion with the proximal breakpoint mapping within the same THE-1 element.     

The identification of circular extrachromosomal DNA in the nuclear genome of Trypanosoma brucei

Nuclear extrachromosomal DNA elements have been identified in several kinetoplastids such as Leishmania and Trypanosoma cruzi, but never in Trypanosoma brucei. They can occur naturally or arise spontaneously as the result of sublethal drug exposure of parasites. In most cases, they are represented as circular elements and are mitotically unstable. In this study we describe the presence of circular DNA in the nucleus of Trypanosoma brucei. This novel type of DNA was termed NR-element (NlaIII repeat element). In contrast to drug-induced episomes in other kinetoplastids, the T. brucei extrachromosomal NR-element is not generated by drug selection. Furthermore, the element is stable during mitosis over many generations. Restriction analysis of tagged NR-element DNA, unusual migration patterns during pulsed field gel electrophoresis (PFGE) and CsCl/ethidium bromide equilibrium centrifugation demonstrates that the NR-element represents circular DNA. Whereas it has been found in all field isolates of the parasites we analysed, it is not detectable in some laboratory strains notably the genome reference strain 927. The DNA sequence of this element is related to a 29 bp repeat present in the subtelomeric region of VSG-bearing chromosomes of T. brucei. It has been suggested that this subtelomeric region is part of a transition zone on chromosomes separating the relatively stable telomeric repeats from the recombinationaly active region downstream of VSG genes. Therefore, we discuss a functional connection between the occurrence of this circular DNA and subtelomeric recombination events in T. brucei.     

Structure of circular copies of the 412 transposable element present in Drosophila melanogaster tissue culture cells, and isolation of a free 412 long terminal repeat

We have isolated, from Drosophila melanogaster tissue culture cells, extrachromosomal circular forms of the transposable element 412, and have cloned some of them in bacteriophage lambda. A total of 24 clones have been analysed in detail by restriction and heteroduplex mapping. Seventeen clones are virtually identical, and contain complete 412 elements with one copy of the long terminal direct repeat (LTR). The remaining seven clones are all different and contain various rearrangements. Four have deletions, two have some 412 sequence substituted by other DNA and one has both an inversion and a deletion. The clone containing the inversion has two LTRs in inverted orientation and separated by a few thousand bases of 412 DNA. The base sequences of the two LTRs in this clone, and of the LTR in one of the 17 clones containing complete elements are very similar to that of the 481 base-pair LTR of a genomic 412 element. We have found no evidence, in either cloned or uncloned material, for 412 elements with two LTRs as a tandem direct repeat. We have found that there are several "free" 412 LTRs in genomic DNA from D. melanogaster strains Canton S and Oregon R, and from D. melanogaster tissue culture cells. We have cloned and sequenced one of these free LTRs. It is 475 base-pairs long and is flanked by a direct repeat four base-pairs long. This sequence differs from that of the 481 base-pair repeat at 16 places including a ten base deletion.     

Phylogenetic relationships among transposon-like elements in human and primate DNA

A THE-1 sequence in intron 7 of the human dystrophin gene has been found to represent a new subfamily of THE-1 elements. The sequence is closely related to the MstII family of repetitive sequences and is more like single-copy sequences found in the galago genome than any other THE-1 sequence previously reported. This new THE-1 sequence has been compared with two other complete THE-1 sequences and three related long-terminal repeat elements that we have previously found in intron 7 of the dystrophin gene, and with members of the same family from elsewhere in the primate genome. Parsimony and deletion analysis show that the cluster of THE-1 sequences in intron 7 of the dystrophin gene has arisen from at least three individual insertion events, rather than from the insertion and duplication of a single progenitor sequence. Correspondence to: G.B. Petersen     

Characterization of adeno-associated virus genomes isolated from human tissues

Infection with wild-type adeno-associated virus (AAV) is common in humans, but very little is known about the in vivo biology of AAV. On a molecular level, it has been shown in cultured cells that AAV integrates in a site-specific manner on human chromosome 19, but this has never been demonstrated directly in infected human tissues. To that end, we tested 175 tissue samples for the presence of AAV DNA, and when present, examined the specific form of the viral DNA. AAV was detected in 7 of 101 tonsil-adenoid samples and in 2 of 74 other tissue samples (spleen and lung). In these nine samples, we were unable to detect AAV integration in the AAVS1 locus using a sensitive PCR assay designed to amplify specific viral-cellular DNA junctions. Additionally, we used a second complementary assay, linear amplification-mediated-PCR (LAM-PCR) to widen our search for integration events. Analysis of individual LAM-PCR products revealed that the AAV genomes were arranged predominantly in a head-to-tail array, with deletions and extensive rearrangements in the inverted terminal repeat sequences. A single AAV-cellular junction was identified from a tonsil sample and it mapped to a highly repetitive satellite DNA element on chromosome 1. Given these data, we entertained the possibility that instead of integrated forms, AAV genomes were present as extrachromosomal forms. We used a novel amplification assay (linear rolling-circle amplification) to show that the majority of wild-type AAV DNA existed as circular double-stranded episomes in our tissues. Thus, following naturally acquired infection, AAV DNA can persist mainly as circular episomes in human tissues. These findings are consistent with the circular episomal forms of recombinant AAV vectors that have been isolated and characterized from in vivo transduced tissues.     

Pulse-labeled, small closed circular DNA in cultured mouse and human cells

Mouse (erythroleukemia, TSA8, and FM3A) cells and human (HeLa and HL-60) cells were pulse-labeled with [3H]thymidine and covalently closed circular DNA in the extrachromosomal fraction was analyzed by fluorography following polyacrylamide gel electrophoresis. Two discrete bands for mouse and at least one, different, band for human cells emerged in the position to which small circular DNA (less than 1 kb) migrate, suggesting there to be species-specific, preferentially labeled, small circular DNA in mammalian cells. The incorporation of [3H]thymidine into the DNA was inhibited by cycloheximide but unaffected by aphidicolin. Restriction enzyme (AluI) digestion of the DNA fraction from MEL cells produced approximately 120-, 100-, and 50-bp labeled DNA fragments. The origin of the pulse-labeled DNAs is discussed.     

Visualization and quantitative analysis of extrachromosomal telomere-repeat DNA in individual human cells by Halo-FISH

Current methods for characterizing extrachromosomal nuclear DNA in mammalian cells do not permit single-cell analysis, are often semi-quantitative and frequently biased toward the detection of circular species. To overcome these limitations, we developed Halo-FISH to visualize and quantitatively analyze extrachromosomal DNA in single cells. We demonstrate Halo-FISH by using it to analyze extrachromosomal telomere-repeat (ECTR) in human cells that use the Alternative Lengthening of Telomeres (ALT) pathway(s) to maintain telomere lengths. We find that GM847 and VA13 ALT cells average ∼80 detectable G/C-strand ECTR DNA molecules/nucleus, while U2OS ALT cells average ∼18 molecules/nucleus. In comparison, human primary and telomerase-positive cells contain <5 ECTR DNA molecules/nucleus. ECTR DNA in ALT cells exhibit striking cell-to-cell variations in number (<20 to >300), range widely in length (<1 to >200 kb) and are composed of primarily G- or C-strand telomere-repeat DNA. Halo-FISH enables, for the first time, the simultaneous analysis of ECTR DNA and chromosomal telomeres in a single cell. We find that ECTR DNA comprises ∼15% of telomere-repeat DNA in GM847 and VA13 cells, but <4% in U2OS cells. In addition to its use in ALT cell analysis, Halo-FISH can facilitate the study of a wide variety of extrachromosomal DNA in mammalian cells.     

Developmentally coordinated en masse excision of a highly repetitive element in E. crassus

The E. crassus Tec1 element is present in greater than 10(4) copies in the micronuclear genome but is absent from the macronuclear genome. During formation of a macronucleus from a micronucleus, a majority of the Tec1 elements appear as extrachromosomal circles. The circular and integrated forms of Tec1 have been characterized by restriction mapping to produce consensus maps and by sequence analysis of the element's termini. The circular forms are resistant to BAL31 and have the restriction map expected if the element excises at the end of its inverted repeats. DNA sequence analysis of a circular form confirms that the inverted repeats are in a head-to-head configuration. Excision of Tec1 occurs very early during macronuclear development as the DNA begins to replicate to form polytene chromosomes.     

Electron microscopy of amplified DNA forms in antifolate-resistant Leishmania

Three independently derived antifolate-resistant Leishmania major cell lines overproduce the bifunctional protein thymidylate synthase-dihydrofolate reductase (TS-DHFR) by amplification of a region of DNA (R-region DNA) that contains the gene for TS-DHFR. On orthogonal-field-alteration gel electrophoresis (OFAGE), the extrachromosomal R-region DNAs are circular molecules, and different forms of R-region DNA within these cell lines are resolved. The R-region DNAs migrate aberrantly on OFAGE with respect to linear DNA and supercoiled plasmid standards. We describe a method for the isolation of these R-region DNA forms from OFAGE. By electron microscopy, we show that the extrachromosomal elements are single supercoiled circular DNA molecules, and are predominantly circular monomers and dimers of the original R-region DNA amplification unit. Using OFAGE, an analysis of cloned isolates shows that individual cells may contain multiple forms of R-region DNA. Furthermore, within a given cell line, certain distinguishable forms appear to have the same size and restriction map, suggesting they may be topoisomers. The multiple forms of R-region DNA are in a dynamic state in the antifolate-resistant populations, and the relative amount of DNA in each form as well as the number of forms within each cell line change through time. As currently understood, the generation of amplified R-region DNA in L. major is summarized.     

Tec2, a second transposon-like element demonstrating developmentally programmed excision in Euplotes crassus.

The analysis of a repetitive DNA interruption of the micronuclear precursor to a 0.85-kb macronuclear gene in the hypotrich Euplotes crassus has led to the identification of a second transposon-like element named Tec2. Two copies of this element, one inserted into the other, compose the interruption. The Tec2 element resembles the previously characterized Tec1 element in overall size, copy number, length, and extreme terminal sequence of its inverted repeats and in the apparent use of a 5'-TA-3' target site. In addition, extrachromosomal circular forms of Tec2 appear in DNA isolated from cells undergoing macronuclear development at the same time and with the same conformation as extrachromosomal circular forms of Tec1. These similarities suggest that the Tec1 and Tec2 elements may be under the same type of regulation during macronuclear development.