PMID- 9882302
OWN - NLM
STAT- MEDLINE
DCOM- 19990218
LR  - 20200724
IS  - 0022-538X (Print)
IS  - 1098-5514 (Electronic)
IS  - 0022-538X (Linking)
VI  - 73
IP  - 2
DP  - 1999 Feb
TI  - Insertion of foreign DNA into an established mammalian genome can alter the 
      methylation of cellular DNA sequences.
PG  - 1010-22
AB  - The insertion of adenovirus type 12 (Ad12) DNA into the hamster genome and the 
      transformation of these cells by Ad12 can lead to marked alterations in the 
      levels of DNA methylation in several cellular genes and DNA segments. Since such 
      alterations in DNA methylation patterns are likely to affect the transcription 
      patterns of cellular genes, it is conceivable that these changes have played a 
      role in the generation or the maintenance of the Ad12-transformed phenotype. We 
      have now isolated clonal BHK21 hamster cell lines that carry in their genomes 
      bacteriophage lambda and plasmid pSV2neo DNAs in an integrated state. Most of 
      these cell lines contain one or multiple copies of integrated lambda DNA, which 
      often colocalize with the pSV2neo DNA, usually in a single chromosomal site as 
      determined by the fluorescent in situ hybridization technique. In different cell 
      lines, the loci of foreign DNA insertion are different. The inserted 
      bacteriophage lambda DNA frequently becomes de novo methylated. In some of the 
      thus-generated hamster cell lines, the levels of DNA methylation in the 
      retrotransposon genomes of the endogenous intracisternal A particles (IAP) are 
      increased in comparison to those in the non-lambda-DNA-transgenic BHK21 cell 
      lines. These changes in the methylation patterns of the IAP subclone I (IAPI) 
      segment have been documented by restriction analyses with methylation-sensitive 
      restriction endonucleases followed by Southern transfer hybridization and 
      phosphorimager quantitation. The results of genomic sequencing experiments using 
      the bisulfite protocol yielded additional evidence for alterations in the 
      patterns of DNA methylation in selected segments of the IAPI sequences. In these 
      experiments, the nucleotide sequences in >330 PCR-generated cloned DNA molecules 
      were determined. Upon prolonged cultivation of cell lines with altered cellular 
      methylation patterns, these differences became less apparent, perhaps due to 
      counterselection of the transgenic cells. The possibility existed that the 
      hamster BHK21 cell genomes represent mosaics with respect to DNA methylation in 
      the IAPI segment. Hence, some of the cells with the patterns observed after 
      lambda DNA integration might have existed prior to lambda DNA integration and 
      been selected by chance. A total of 66 individual BHK21 cell clones from the 
      BHK21 cell stock have been recloned up to three times, and the DNAs of these cell 
      populations have been analyzed for differences in IAPI methylation patterns. None 
      have been found. These patterns are identical among the individual BHK21 cell 
      clones and identical to the patterns of the originally used BHK21 cell line. 
      Similar results have been obtained with nine clones isolated from BHK21 cells 
      mock transfected by the Ca2+-phosphate precipitation procedure with DNA omitted 
      from the transfection mixture. In four clonal sublines of nontransgenic control 
      BHK21 cells, genomic sequencing of 335 PCR-generated clones by the bisulfite 
      protocol revealed 5'-CG-3' methylation levels in the IAPI segment that were 
      comparable to those in the uncloned BHK21 cell line. We conclude that the 
      observed changes in the DNA methylation patterns in BHK21 cells with integrated 
      lambda DNA are unlikely to preexist or to be caused by the transfection 
      procedure. Our data support the interpretation that the insertion of foreign DNA 
      into a preexisting mammalian genome can alter the cellular patterns of DNA 
      methylation, perhaps via changes in chromatin structure. The cellular sites 
      affected by and the extent of these changes could depend on the site and size of 
      foreign DNA insertion.
FAU - Remus, R
AU  - Remus R
AD  - Institute of Genetics, University of Cologne, D-50931 Cologne, Germany.
FAU - Kammer, C
AU  - Kammer C
FAU - Heller, H
AU  - Heller H
FAU - Schmitz, B
AU  - Schmitz B
FAU - Schell, G
AU  - Schell G
FAU - Doerfler, W
AU  - Doerfler W
LA  - eng
PT  - Journal Article
PT  - Research Support, Non-U.S. Gov't
PL  - United States
TA  - J Virol
JT  - Journal of virology
JID - 0113724
RN  - 0 (DNA, Viral)
RN  - EC 3.1.21.- (Deoxyribonuclease HpaII)
RN  - EC 3.1.21.- (endodeoxyribonuclease HpaI)
RN  - EC 3.1.21.4 (Deoxyribonucleases, Type II Site-Specific)
SB  - IM
MH  - Animals
MH  - Bacteriophage lambda/*genetics
MH  - Cell Line
MH  - Cell Transformation, Neoplastic
MH  - Cell Transformation, Viral
MH  - Cricetinae
MH  - *DNA Methylation
MH  - *DNA, Viral
MH  - Deoxyribonuclease HpaII
MH  - Deoxyribonucleases, Type II Site-Specific
MH  - Genes, Intracisternal A-Particle
MH  - Genome, Viral
MH  - Sequence Analysis, DNA
MH  - Simian virus 40/genetics
MH  - Transcription, Genetic
MH  - *Transformation, Genetic
MH  - Virus Integration
PMC - PMC103921
EDAT- 1999/01/09 00:00
MHDA- 1999/01/09 00:01
PMCR- 1999/02/01
CRDT- 1999/01/09 00:00
PHST- 1999/01/09 00:00 [pubmed]
PHST- 1999/01/09 00:01 [medline]
PHST- 1999/01/09 00:00 [entrez]
PHST- 1999/02/01 00:00 [pmc-release]
AID - 2181 [pii]
AID - 10.1128/JVI.73.2.1010-1022.1999 [doi]
PST - ppublish
SO  - J Virol. 1999 Feb;73(2):1010-22. doi: 10.1128/JVI.73.2.1010-1022.1999.