Restriction endonuclease analysis of human globin genes in cellular DNA

Using samples of human cellular DNA digested with restriction endonucleases Eco RI, Hind III, Hinc II, Bam HI, Alu I, or Hae III, we were able to localize globin gene fragments separated by agarose gel electrophoresis. The fragments were transferred to nitro-cellulose filters and identified by hybridization to [³²P] cDNA for total adult globin mRNA. The α-globin gene fragments were specifically identified by their presence in normal controls and absence in DNA from homozygous α-thalassemia, a genetic disorder due to deletion of α-globin genes. In addition, the patterns with Hind III indicate a 4.1 kb distance between the centers of the normal duplicated α-globin gene loci.     

Isolation and characterization of murine erythroleukemia cell variants nonresponsive to hemin for the expression of globin genes

Thirty-four cloned lines of mouse erythroleukemia (MEL) cells that showed impairment in hemoglobin sy nthesis induced by hemin were isolated from line 745. Among these lines, 75% showed a reduced or nil response to induction by dimethyl sulfoxide (DMSO) and/or hypoxanthine. Four of these clones (three lines nonresponsive to hemin and one not responsive to either hemin or DMSO) were further characterized for the amount of globin mRNA accumulated in the cytoplasm and for the rate of globin synthesis upon exposure to hemin or DMSO. None of the four were induced by hemin to accumulate globin mRNA and all had a reduced rate of globin synthesis by comparison with control line 745. Two of the four lines had a high uninduced level of cytoplasmic globin mRNA not matched by a corresponding rate of globin synthesis, suggesting that they may accumulate defective globin mRNAs.     

Stability of globin mRNA in terminally differentiating murine erythroleukemia cells

The stability of globin mRNA in terminally differentiating MEL cells has been reevaluated. Previously, it had been reported that globin mRNA has a half-life of approximately 17 hr in terminally differentiating MEL cells. We show that the previous measurements of this parameter were confounded by physical instability of differentiating MEL cells. By using culture conditions that physically stabilize end-stage cells we show that the stability of globin mRNA in terminally differentiating MEL cells is equal to the value observed for ribosomal RNA, a half-life greater than 60 hr.     

Correlation between hypomethylation of DNA and expression of globin genes in Friend erythroleukemia cells.

This report identifies L-ethionine as an inducer of differentiation in murine erythroleukemia cells. When Friend erythroleukemia cells are grown in the presence of 4mM L-ethionine, globin mRNA accumulates and in 4-5 days, 25-30% of the cells in the culture contain hemoglobin. Incubation of the cells with bromodeoxyuridine prevents both ethionine-induced accumulation of globin mRNA and erythroide differentiation. At the concentration where L-ethionine acts as an inducer of FL cell differentiation it inhibits methylation of DNA and tRNA in vivo but does not prevent macromolecular synthesis or cell division. To establish whether a link existed between inhibition of a specific methyltransferase and activation of globin synthesis in FL cells, we examined the degree of hypomethylation of DNA and tRNA from FL cells induced to differentiate with dimethylsulfoxide and butyrate. In contrast to the tRNA from ethionine-treated cells, tRNA from cells induced by butyrate or Me2SO cannot be methylated in vitro using homologous enzymes. DNA isolated from cells exposed to any of the three inducers, however, was significantly hypomethylated when compared with DNA from uninduced cells. These data suggest that methylation of DNA may play a role in the regulation of gene expression.     

Apurinic DNA endonuclease activities in repair-deficient human cell lines.

Several autosomal recessive diseases are associated with apparent DNA repair defects in cell culture. It seemed likely that a defect in excision repair reported for ataxia telangiectasia cells might reflect a lack of apurinic endonuclease activity. We report here normal levels of apurinic endonuclease activity in extracts of cell lines derived from patients with ataxia telangiectasia, xeroderma pigmentosum (complementation group D), Cockayne dwarfism, Fanconi anemia and Bloom syndrome.     

Restriction endonuclease mapping of the proviral DNA of the exogenous RIII murine mammary tumor virus

Cellular DNA containing integrated murine mammary tumor virus (MuMTV) was isolated from FeI/C6 feline kidney cells and CCL64 mink lung cells infected with milkborne RIII MuMTV. By using restriction enzyme HpaI, intact RIII MuMTV provirus (length, 8.7 kilobases [kb]) was excised from the cellular DNA. Subsequent restriction endonuclease analysis of this HpaI fragment with KpnI, HindIII, EcoRI, BamHI, BglII, PstI, SstI, SalI, and XhoI enabled us to construct a map of the RIII virus genome. A comparison of this map with the maps of the GR and C3H MuMTV's revealed that there are greater sequence differences between the RIII virus and the GR and C3H MuMTV proviruses than there are between the GR and C3H proviruses. The following are features of the restriction map unique to the RIII provirus: the presence of three BamHI and two EcoRI cleavage sites, a HpaI cleavage site in the terminal 3'-5' repeat unit of the provirus, and the absence of an XhoI cleavage site. Another distinguishing feature of the RIII provirus is that the sizes of some of the restriction fragments produced by cleavage of the RIII provirus with PstI are different from the sizes of the fragments obtained by PstI cleavage of the GR and C3H proviruses. Like the GR proviral DNA, the RIII proviral DNA has three SstI (SacI) cleavage sites, whereas the C3H provirus has only two SstI sites. HpaI digestion of MuMTV-infected mink lung cell DNA revealed only one class of provirus (an 8.7-kb fragment); however, we observed several minor classes of RIII proviral DNA in addition to the major class of provirus DNA in infected cat kidney cells. PstI digestion of the HpaI 8.7-kb fragments from both feline and mink cells generated a 3.7-kb DNA fragment identical in size to a PstI-generated fragment that has been found in GR and C3H milkborne virus-infected cells. Although a fragment similar in size to the milkborne 3.7-kb PstI fragment has been found as an endogenous component in many C3H and GR mouse tissues, we did not observe such an endogenous fragment in the RIII mouse strain. Therefore, the 3.7-kb fragment may be useful as a marker for the milkborne RIII MuMTV provirus in RIII mice.     

DNA strand scission and ADP-ribosyltransferase activity during murine erythroleukemia cell differentiation

The accumulation of DNA strand breaks and activation of ADP-ribosyltransferase (ADPRT) have recently been associated with cellular differentiation. Murine erythroleukemia (MEL) cells undergo erythropoietic differentiation when exposed to dimethyl sulfoxide (Me2SO) and several studies have suggested that DNA strand scission induced by this agent is a prerequisite for expression of the differentiated phenotype. Me2SO induction of MEL cells has also been associated with increases in ADPRT activity in one study, but not in another. We have monitored the effects of Me2SO on DNA strand breaks in preformed and replicating MEL cell DNA. The results clearly demonstrate that DNA fragmentation is not detectable during Me2SO induction of MEL differentiation, even in the presence of 3-aminobenzamide, an inhibitor of ADPRT. Further, these results are consistent with an absence of detectable changes in both endogenous and total potential ADPRT activity during Me2SO-induced MEL differentiation. These findings would argue against Me2SO induction of DNA strand scission and ADPRT in MEL cells undergoing differentiation.     

The beta-major and beta-minor globin genes in murine erythroleukemia cells replicate during the same early interval of the S phase

The time of replication in S phase was determined for the 7.3 kb EcoRI segment containing the beta-major globin gene and the 14 kb EcoRI segment containing the beta-minor globin gene in a murine Friend erythroleukemia virus transformed (MEL) cell line. Cells were obtained from different intervals of S phase by centrifugal elutriation to avoid artifacts of chemical synchronization. Newly synthesized DNA from different parts of S phase were obtained by isolation of 5-bromouracil (BU) labelled DNA from these cells. The BU-DNA synthesized during four different intervals of S was transferred to diazobenzyloxymethyl (DBM) paper and hybridized with a beta-globin cDNA probe. Quantitation showed that both beta-globin segments were replicated in the first quarter of the S phase with no significant difference in their time of replication in this MEL cell line.     

DNase I sensitivity of immunoglobulin light chain genes in Abelson murine leukemia virus transformed pre-B cell lines.

We have used Abelson murine leukemia virus (A-MuLV) transformed pre-B cell lines to test the hypothesis that the rearrangement potential of a developing B-lymphocyte is dependent on an "opening" of the chromatin structure surrounding immunoglobulin (Ig) genes, thus allowing accessibility to an Ig gene recombinase. The chromatin structures surrounding heavy (H), kappa (kappa), and lambda (lambda) chain constant-region genes were assessed by DNase I sensitivity in A-MuLV transformed cell lines capable of H, kappa or lambda gene rearrangement. Our results indicate that DNase I-sensitive chromatin structures of these Ig constant-region genes correlate closely with the ability of the genes to undergo recombination. We also find that the chromatin structure of an Ig constant-region locus becomes DNase I sensitive before any DNA rearrangement events occur.     

Restriction endonuclease cleavage of satellite DNA in intact bovine nuclei

We have analyzed the efficiency with which specific nucleotide sequences within nucleosomes are recognized and cleaved by DNA restriction endonucleases. A system amenable to this sort of analysis is the cleavage of the bovine genome with the restriction endonuclease EcoRI. Bovine satellite I comprises 7% of the genome and is tandemly repetitious with an EcoRI site at 1400 base pair (bp) intervals within this sequence. The ease with which this restriction fragment can be measured permits an analysis of the accessibility of this sequence when organized in a nucleosomal array.Initial studies indicated that satellite I sequences are organized in a nucleosomal structure in a manner analogous to that observed for total genomic DNA. We then examined the accessibility of the EcoRI cleavage sites in satellite to endonucleolytic cleavage in intact nuclei. We find that whereas virtually all the satellite I sequences from naked DNA are cleaved into discrete 1400 bp fragments, only 33% of the satellite I DNA is liberated as this fragment from intact nuclei. These data indicate that 57% of the EcoRI sites in nuclei are accessible to cleavage and that cleavage can occur within the core of at least half the nucleosomal subunits. Analysis of the products of digestion suggests a random distribution of nucleosomes about the EcoRI sites of satellite I DNA.Finally, the observation that satellite sequences can be cleaved from nuclei to 1400 bp length fragments with their associated proteins provides a method for the isolation of specific sequences as chromatin. Using sucrose gradient velocity centrifugation, we have isolated a 70% pure fraction of satellite I chromatin. Nuclease digestion of this chromatin fraction reveals the presence of nucleosomal subunits and indicates that specific sequences can be isolated in this manner without gross disorganization of their subunit structure.