Differential effects of dimethylsulfoxide on the activities of human DNA polymerases alpha and delta

DNA Polymerase λ Mediates a Back-up Base Excision Repair Activity in Extracts of Mouse Embryonic Fibroblasts

Mammalian DNA polymerase (pol) lambda is a member of the X-family of DNA polymerases and has striking enzymatic and structural similarities to mammalian DNA pol beta. Because pol beta provides two important enzymatic activities for base excision repair (BER), we examined whether pol lambda might also contribute to BER. We used extracts from mouse embryonic fibroblasts representing wild-type and null genotypes for pol beta and pol lambda. In combination with neutralizing antibodies against pol beta and pol lambda, our results show a BER deficiency in the pol lambda -/- cell extract compared with extract from isogenic wild-type cells. In addition, the pol lambda antibody strongly reduced in vitro BER in the pol beta -/- cell extract. These data indicate that pol lambda is able to contribute to BER in mouse fibroblast cell extract.

Immunoaffinity purification of DNA polymerase delta

A monoclonal antibody against human DNA polymerase delta (pol delta) was isolated with properties suitable for its utilization for immunoaffinity chromatography. The antibody was immobilized after periodate oxidation and coupled to a hydrazide-activated support. Starting from a partially purified preparation, calf thymus pol delta was purified about 200-fold in a single step. Further purification on ssDNA-cellulose resulted in isolation of a homogeneous preparation. The amount of enzyme isolated, ca. 0.3 mg of pure pol delta from 0.75 kg of calf thymus, is about 15-fold greater than can be achieved by conventional procedures. This procedure provides a significant advance in the isolation of pol delta in allowing its facile isolation from tissues in good yield. The isolated enzyme consisted of two subunits of 125 and 50 kDa. Characterization of the enzyme showed that these two subunits remained associated on glycerol gradient ultracentrifugation even in the presence of 2.8 M urea.

Characteristics of DNA replication in isolated nuclei initiated by an aprotinin-binding protein

Isolated cell nuclei were used as the source of template DNA to investigate the role of a cytosolic aprotinin-binding protein (ADR) in the initiation of eukaryotic DNA replication. Computerized image cytometry demonstrated that the DNA content of individual nuclei increased significantly following incubation with ADR-containing preparations, and the extent of DNA synthesis is consistent with that allowed by the limiting concentration of dTTP. Thus, dTTP incorporation into isolated nuclei represents DNA synthesis and not parent strand repair. We found that dTTP incorporation into the isolated nuclei is dependent on DNA polymerase alpha (a principal polymerase in DNA replication) but that DNA polymerase beta (a principal polymerase in DNA repair processes) does not play a significant role in this system. Finally, neither aprotinin nor a previously described cytosolic ADR inhibitor can block the replication of nuclease-treated calf thymus DNA, while both strongly inhibit replication of DNA in isolated nuclei. This result, coupled with the relative ineffectiveness of nuclease-treated DNA compared with nuclear DNA to serve as a replicative template in this assay, argues against a significant contribution from repair or synthesis which initiates at a site of DNA damage. These data indicate that ADR-mediated incorporation of 3H-dTTP into isolated nuclei results from DNA replicative processes that are directly relevant to in vivo S phase events.

Molecular cloning of the cDNA for the catalytic subunit of human DNA polymerase delta

The cDNA of human DNA polymerase delta was cloned. The cDNA had a length of 3.5 kb and encoded a protein of 1107 amino acid residues with a calculated molecular mass of 124 kDa. Northern blot analysis showed that the cDNA hybridized to a mRNA of 3.4 kb. Monoclonal and polyclonal antibodies to the C-terminal 20 residues specifically immunoblotted the human pol delta catalytic polypeptide. A multiple sequence alignment was constructed. This showed that human pol delta is closely related to yeast pol delta and the herpes virus DNA polymerases. The levels of pol delta message were found to be induced concomitantly with DNA pol delta activity and DNA synthesis in serum restimulated proliferating IMR90 cultured cells. The human pol delta gene was localized to chromosome 19 by Southern blotting of EcoRI digested DNA from a panel of rodent/human cell hybrids.

Dimethyl sulfoxide inhibits the expression of early growth-response genes and arrests fibroblasts at quiescence

We have previously shown that dimethyl sulfoxide (DMSO) treatment of mouse embryo fibroblasts (MEF) at the early hours of mitogenic stimuli resulted in the inhibition of DNA and protein synthesis; delayed treatment of serum-stimulated cells with DMSO had little effect on the synthesis of these macromolecules. Here, we demonstrate the specific inhibition of expression of early growth response genes by DMSO in serum-stimulated MEF. The expression of interleukin 6, and of oncogenes c-myc and c-fos were inhibited when the cells were treated with 2% DMSO from the beginning of serum-stimulated growth but not after 3 h of mitogenic stimuli. Although the actin gene is an early serum-response gene, its expression was not affected by DMSO. The synthesis of another serum-induced protein, the plasminogen activator inhibitor-1 was blocked during concurrent and delayed (after 3 h of stimulation) treatment of serum-stimulated fibroblasts with DMSO. The expression of glyceraldehyde-3-phosphate dehydrogenase gene was not affected by DMSO. These results indicate that the expression of non-growth-related genes are either not affected or affected nonspecifically both at early and late stages of serum-induced growth of mouse embryo fibroblasts. The serum-induced expression of c-fos gene was abolished by DMSO treatment of MEF while the phorbol 12-myristate 13-acetate-induced expression of fos gene was not, indicating that the PMA signaling pathway was refractory to DMSO. Treatment of cells with medium containing 2% DMSO for 24-48 h prevents them from progression into cell cycle by preventing the expression of genes involved in G0-G1 transition of quiescent cells.

Induction of DNA polymerase activities in the regenerating rat liver

The levels of DNA polymerase alpha, DNA polymerase delta, and its accessory protein, proliferating cell nuclear antigen (PCNA) were examined in the regenerating rat liver. The levels of DNA polymerase alpha and delta activities in regenerating liver extracts were determined by the use of the DNA polymerase alpha specific inhibitor, BuAdATP [2-(p-n-butylanilino)-9-(2-deoxy-beta-D-ribofuranosyl) adenine 5'-triphosphate], and monoclonal antibodies. These reagents showed that the total DNA polymerase activities increased ca. 4-fold during regeneration and that the fraction of DNA polymerase delta activity at the peak was 40% of the total DNA polymerase activity. Immunoblots and inhibition studies using specific antibodies showed that DNA polymerase delta and epsilon and PCNA were concomitantly induced after partial hepatectomy. The levels of both DNA polymerase delta and epsilon and PCNA reached their maxima at 24-36 h post hepatectomy, i.e., at the same time that in vivo DNA synthesis reached its peak. Partial purification and characterization of DNA polymerases delta and epsilon from the regenerating rat liver were also performed. These observations suggest that the variation of DNA polymerase delta and epsilon and PCNA during liver regeneration is closely related to DNA synthesis and is consistent with their involvement in DNA replication.

DNA polymerase B from wheat embryos: a plant delta-like DNA polymerase

Studies in eucaryotic cells (mainly animals and yeast) indicate that at least two DNA polymerases are involved in DNA replication at the level of the replication fork: DNA polymerase alpha, which is associated with DNA primase, is involved in the replication of the lagging strand; DNA polymerase delta, associated with an exonuclease activity, synthesizes the forward continuous DNA strand. Much less information exists concerning plant systems. Previous work from this laboratory provided preliminary evidence of an association between DNA polymerase B from wheat embryo and an exonucleolytic activity. In this paper, we present additional data on the biochemical properties of DNA polymerase B. An improved purification procedure described in this article has been developed. During all the purification steps the nuclease activity was associated with DNA polymerase activity. A biochemical study of this enzyme activity shows that it is an exonuclease which hydrolyses DNA in the 3' to 5' direction. Moreover, this exonuclease confers a proofreading function to DNA polymerase B. Comparison of DNA polymerase B properties (template specificity, sensitivity to DNA replication inhibitors like aphidicolin and butyl-phenyl dGTP, copurification of DNA polymerase and exonuclease activities) with those of animal DNA polymerase delta indicates that these enzymes share many common features. To our knowledge, this is the first report of DNA polymerase delta in higher plants.

DNA polymerases alpha, delta, and epsilon: three distinct enzymes from HeLa cells

DNA polymerases alpha, delta, and epsilon have been purified and characterized from the same HeLa cell extract in order to determine their relationship by comparing them from the same cell type. The catalytic properties and the primary structures of the large subunits of the DNA polymerases as compared by partial peptide mapping with N-chlorosuccinimide are different. Likewise, the small subunit of DNA polymerase epsilon appears to be distinct from the large subunit of the same polymerase and from the smaller subunits of DNA polymerase alpha. HeLa DNA polymerase delta is processive only when HeLa proliferating cell nuclear antigen is present, whereas DNA polymerase epsilon is quite processive in its absence. Inhibitor and activator spectra of DNA polymerases alpha, delta, and epsilon also distinguish the three enzymes. These results and immunologic comparisons published elsewhere support the premise that HeLa DNA polymerases alpha, delta, and epsilon are distinct enzymes that have common properties with yeast DNA polymerases I, III, and II, respectively.

Reversible G1 arrest in the cell cycle of human lymphoid cell lines by dimethyl sulfoxide

Proliferation of human B- and T-lymphoid cell lines including Raji and Akata cells was found to be arrested at the G1 stage in the cell cycle by dimethyl sulfoxide (DMSO). The G1 arrest by DMSO occurred gradually and was completed within 96 h after addition of 1.5% DMSO concomitantly with a decrease in growth rate. Progression of G1-phase cells containing a larger amount of RNA into S-phase began 9-12 h after removal of DMSO. At 24 h, the DNA pattern of the cell cycle was similar to that of nontreated log-phase cells. The expression of six differentiation markers on the lymphoid cells was not appreciably changed by treatment with DMSO. On the other hand, the expression of transferrin receptor (one of the growth-related markers) on G1-phase cells 96 h after addition of DMSO was decreased to one-fourth that on log-phase cells and was completely restored 24 h after removal of DMSO. These results indicate that DMSO, known as an inducer of differentiation in several myeloid cell lines, acts as an agent inducing G1 arrest in the cell cycle of the lymphoid cells.

Minichromosome assembly accompanying repair-type DNA synthesis in Xenopus oocytes

Minichromosomes were assembled by injection of circular DNA into the nucleus of Xenopus oocytes. We observed that, in the course of DNA supercoiling and chromatin assembly, a small percentage of the injected DNA molecules incorporated a radioactive precursor. This DNA synthesis was carried out by aphidicolin-sensitive DNA polymerase, and generated short repair-like patches covalently linked to the injected DNA. We found that the DNA thus repaired was rapidly supercoiled almost to completion within 15 to 30 min after injection, whereas 60 to 120 min were required to supercoil the intact, bulk DNA molecules. Such differential supercoiling kinetics was also observed when UV-damaged DNA was injected. Chromatin assembly, which was characterized by DNA fragment sizes protected from micrococcal nuclease digestion, was consistent with the rapid DNA supercoiling and proceeded more efficiently on the repaired DNA. These results indicate that there are at least two kinetically distinct ways of assembling minichromosomes in the oocyte nucleus, and that the repaired DNA molecules preferentially follow the faster pathway.

Protein-primed replication of bacteriophage PRD1 genome in vitro

A cell-free system has been developed from cells of an Escherichia coli strain, carrying cloned genes 1 and 8 of bacteriophage PRD1, that catalyzes protein-primed DNA synthesis. DNA synthesis in vitro is entirely dependent upon the addition of PRD1 DNA-protein complex as template, Mg2+, and four deoxyribonucleoside triphosphates. No in vitro DNA synthesis was observed when deproteinized PRD1 DNA was used as template. The origin and direction of PRD1 DNA replication in vitro was determined by restriction enzyme analysis of 32P-labeled PRD1 DNA synthesized in this system. Replication starts at both ends of the linear PRD1 DNA template. Alkaline sucrose gradient centrifugation and agarose gel electrophoresis showed that full-length PRD1 DNA is synthesized in vitro. DNA synthesis in this system is inhibited by the drug aphidicolin. We also observed that dimethyl sulfoxide (DMSO) stimulates in vitro DNA synthesis, although it inhibits bacterial DNA polymerase.

Biochemical characterization and development of DNA polymerases alpha and delta in the neonatal rat heart

The ontogeny of DNA polymerase activity in the neonatal rat heart was studied. The DNA polymerase activities in rat heart extracts were identified as DNA polymerase alpha and DNA polymerase delta activities by their purification and characterization, by the use of a specific inhibitor (BuAdATP), and by a specific monoclonal antibody against DNA polymerase alpha. Using these inhibitors, it was shown that the two activities declined in parallel during the maturation and terminal differentiation of the heart.