J. Biol. Chem., Vol. 260, Issue 4, 2468-2474, Feb, 1985
Only the promoter region of the constitutively expressed normal and amplified human dihydrofolate reductase gene is DNase I hypersensitive and undermethylated
T Shimada and AW Nienhuis
The human dihydrofolate reductase (DHFR) gene was found to be
undermethylated only in its 5' promoter region; the remaining CCGG residues
in the 30-kilobase (kb) DHFR gene were insensitive to digestion by HpaII.
Each of 27 CpG residues that were part of an HpaII or HhaI cutting site
within a 1.1-kb segment of the DHFR gene promoter region were found to be
unmethylated. All 80 copies of the DHFR gene in methotrexate-resistant HeLa
cell line exhibited this pattern of undermethylation of only the promoter
region. This same region was shown to be DNase I hypersensitive in
chromatin from normal cells and from those cells in which the DHFR gene was
amplified. Again, all copies of the amplified gene exhibited DNase I
hypersensitivity of the promoter region. The remainder of the 30-kb DHFR
gene is both completely methylated and insensitive to DNase I digestion.
Detailed mapping of the DNase I-hypersensitive region revealed four strong
cutting sites within a 500-base pair segment immediately upstream from the
DHFR coding sequence and a weak cutting site within intron I. Two of the
strong DNase I cutting sites in chromatin were also sensitive to S1
nuclease nicking when this DNA fragment was part of supercoiled plasmid
DNA. Promoter undermethylation and DNase I hypersensitivity, features
previously shown for specialized and inducible genes, have now been shown
to be characteristic of the constitutively expressed DHFR gene. That these
features characterize all copies of the amplified DHFR gene in a
methotrexate-resistant cell line suggest that all gene copies are
transcriptionally active.
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