Analysis of the cruciform binding activity of recombinant 14-3-3zeta-MBP fusion protein,its heterodimerization profile with endogenous 14-3-3 isoforms,and effect on mammalian DNA replication in vitro

The human cruciform binding protein (CBP), a member of the 14-3-3 protein family, has been recently identified as an origin of DNA replication binding protein and involved in DNA replication. Here, pure recombinant 14-3-3zeta tagged with maltose binding protein (r14-3-3zeta-MBP) at its N-terminus was tested for binding to cruciform DNA either in the absence or presence of F(TH), a CBP-enriched fraction, by electromobility shift assay (EMSA), followed by Western blot analysis of the electroeluted CBP-cruciform DNA complex. The r14-3-3zeta-MBP was found to have cruciform binding activity only after preincubation with F(TH). Anti-MBP antibody immunoprecipitation of F(TH) preincubated with r14-3-3zeta-MBP, followed by Western blot analysis with antibodies specific to the beta, gamma, epsilon, zeta, and sigma 14-3-3 isoforms showed that r14-3-3zeta-MBP heterodimerized with the endogenous beta, epsilon, and zeta isoforms present in the F(TH) but not with the gamma or sigma isoforms. Immunoprecipitation of endogenous 14-3-3zeta from nuclear extracts (NE) of HeLa cells that were either serum-starved (s-s) or blocked at the G(1)/S or G(2)/M phases of the cell cycle revealed that at G(1)/S and G(2)/M, the zeta isoform heterodimerized only with the beta and epsilon isoforms, while in s-s extracts, the 14-3-3zeta/epsilon heterodimer was never detected, and the 14-3-3zeta/beta heterodimer was seldom detected. Furthermore, addition of r14-3-3zeta-MBP to HeLa cell extracts used in a mammalian in vitro replication system increased the replication level of p186, a plasmid bearing the minimal 186-bp origin of the monkey origin of DNA replication ors8, by approximately 3.5-fold. The data suggest that specific dimeric combinations of the 14-3-3 isoforms have CBP activity and that upregulation of this activity leads to an increase in DNA replication.     

Simultaneous flow cytometric DNA and volume measurements of bone marrow cells as sensitive indicator of abnormal proliferation patterns in rat leukemias.

Simultaneous flow cytometric DNA and volume analysis of normal rat bone marrow cells shows three populations of nucleated cells with different mean volume. Each of these populations proliferates in a distinct cell cycle (alpha, beta, gamma). Normally the alpha-cell cycle has the highest amplitude, the beta-cell cycle is intermediate, and the gamma-cell cycle is low. The alpha-cell cycle was very significantly depressed and the beta + gamma-cell cycle was increased in three different rat leukemias (L5222, Shay, BNML), growing on three different rat strains (BDIX, Holtzmann, Brown Norway). The two parameter analysis further revealed that cells of the beta + gamma-cell cycle were slightly hyperdiploid and hypertetraploid in leukemic animals. The decrease of the alpha-cell cycle and the hyperploidies were more sensitive indicators for the abnormal proliferation pattern than the analysis of one parameter DNA distributions which remained within normal limits in all three leukemias.     

beta]-Tubulin Accumulation and DNA Replication in Imbibing Tomato Seeds

The activation of the cell cycle in embryo root tips of imbibing tomato (Lycopersicon esculentum Mill. cv Lerica) seeds was studied by flow cytometric analyses of the nuclear DNA content and by immunodelection of [beta]-tubulin. With dry seeds, flow cytometric profiles indicated that the majority of the cells were arrested at the G1 phase of the cell cycle. In addition, [beta]-tubulin was not detectable on western blots. Upon imbibition of water, the number of cells in G2 started to increase after 24 h, and a 55-kD [beta]-tubulin signal was detected between 24 and 48 h. Two-dimensional immunoblots revealed at least three different [beta]-tubulin isotypes. Thus, [beta]-tubulin accumulation and DNA replication were induced during osmotic priming. These processes, as well as seed germination rate, were enhanced upon subsequent imbibition of water, compared with control seeds that imbibed but were not primed. By contrast, when aged seeds imbibed, DNA replication, [beta]-tubulin accumulation, and germination were delayed. In all cases studied, both DNA replication and [beta]-tubulin accumulation preceded visible germination. We suggest that activation of these cell-cycle-related processes is a prerequisite for tomato seed germination. Furthermore, [beta]-tubulin expression can be used as a parameter for following the initial processes that are activated during seed imbibition.     

DNA polymerase beta mRNA and protein expression in Xiphophorus fish

Herein we report Xiphophorus DNA polymerase beta (XiphPolbeta) mRNA and protein expression levels in brain, liver, gill, and testes tissues from Xiphophorus maculatus, Xiphophorus helleri, and Xiphophorus couchianus parental line fish and two different tumor-bearing Xiphophorus interspecies hybrids. Polymerase beta protein levels in the Xiphophorus tissues were measured by Western blot, and mRNA was measured with a quantitative real time RT-PCR method which employed cRNA construction to produce accurate calibration curves. We found significant differences in both mRNA and protein levels between the tumor-bearing hybrid animals and the three parental species. However, there were no significant differences in either mRNA levels or protein expression observed between the parental species. Thus, interspecies hybridization results in dysregulation of Polbeta expression and this may manifest a modulation in DNA repair capability and susceptibility to latent tumorigenesis.     

Ubiquitous binding of benzo[a]pyrene metabolites to DNA and protein in tissues of the mouse and rabbit

The in vivo formation of benzo[alpha]pyrene (BP) metabolite-DNA adducts in several tissues of mice and rabbits was examined. Included were tissues with widely divergent xenobiotic metabolizing capabilities such as liver and brain. The major adduct identified in each tissue was the (+)-7 beta,8 alpha-dihydroxy-9 alpha,10 alpha-epoxy-7,8,9,10-tetrahydro-BP (BPDEI)-deoxyguanosine adduct. A 7 beta,8 alpha-dihydroxy-9 beta,10 beta-epoxy-7,8,9,10-tetrahydro-BP (BPDEII)-deoxyguanosine adduct, a (-)-BPDEI-deoxyguanosine adduct and an unidentified adduct were also observed. These adducts were present in all of the tissues of the mice and in the lungs of the rabbits; only BPDEI and BPDEII were seen in the rest of the rabbit tissues. In all of the tissues studied, the DNA adduct levels were unexpectedly similar. For example, the BPDEI-DNA adduct levels in muscle and brain of mice were approx. 50% of those in lung and liver at each oral BP dose examined. After an i.v. dose of BP in rabbits, the BPDEI adduct levels in lung were three times those in brain or liver and twice those in muscle. The binding of BP metabolites to protein was also determined in these tissues. The tissue-to-tissue variation in protein binding levels of BP metabolites was greater than that for BPDEI-DNA adducts. There are several possible explanations for the in vivo binding of BP metabolites to DNA and protein of various tissues. First, oxidative metabolism of BP in each of the examined tissues might account for the observed binding. Second, reactive metabolites could be formed in tissues such as liver and lung and be transported to cells in tissues such as muscle and brain where they bind to DNA and protein. In any case, the tissue-to-tissue variations in protein and DNA binding of BP-derived radioactivity do not correlate with differences in cytochrome P-450 activity.     

Satellite DNA in differentiating chick tissues

Embryonic chick DNA from different tissues was examined for differences which might indicate specific DNA amplification in somatic cells. The problem was approached by determining the DNA compositional heterogeneity and searching for possible variation in different tissues of the 12-day chick. Neural retina, muscle, and whole decapitated (general) chick DNA were analyzed in CsCl and Cs2SO4 density gradients. While overloaded CsCl gradients showed a main band (rho = 1.701 g/cm3) and a heavy shoulder (rho = 1.716 g/cm3), overloaded Cs2SO4 gradients displayed a main band (rho = 1.426 g/cm3) and a discrete heavy satellite (rho = 1.447 g/cm3). This satellite, comprising approximately 1% of the whole cell DNA, appeared to be of nuclear origin and not related to mitochondrial DNA, which was found to have a density of 1.426 g/cm3 in Cs2SO4. No differences were found in the densities of the main band or the satellite DNA in the DNA samples isolated from the different tissues. However, the method of DNA isolation was found to be of crucial importance when comparing satellite DNA's among different tissues.     

Neutron-induced free radicals in oriented DNA

Samples of oriented DNA containing 30 per cent water were irradiated with neutrons at 77 K. The electron spin resonance (e.s.r.) spectra obtained from these irradiated DNA samples show that the formation of radicals is different when the incident neutrons are parallel or perpendicular to the DNA helix. When the incident neutrons are perpendicular to the DNA helix the e.s.r. spectra of thymine and guanine ionic radicals (T-., G+.) are observed. An additional e.s.r. spectrum corresponding to the hydrogen addition radical on thymine (TH.) is observed when the incident neutrons are parallel to DNA helix. The TH. radical appears to be formed by protonation of T-. .     

Human DNA polymerase epsilon is expressed during cell proliferation in a manner characteristic of replicative DNA polymerases.

In order to shed light on the role of mammalian DNA polymerase epsilon we studied the expression of mRNA for the human enzyme during cell proliferation and during the cell cycle. Steady-state levels of mRNA encoding DNA polymerase epsilon were elevated dramatically when quiescent (G0) cells were stimulated to proliferate (G1/S) in a similar manner to those of DNA polymerase alpha. Message levels of DNA polymerase beta were unchanged in similar experiments. The concentration of immunoreactive DNA polymerase epsilon was also much higher in extracts from proliferating tissues than in those from non-proliferating or slowly proliferating tissues. The level of DNA polymerase epsilon mRNA in actively cycling cells synchronized with nocodazole and in cells fractionated by counterflow centrifugal elutriation showed weaker variation, being at its highest at the G1/S stage boundary. The results presented strongly suggest that mammalian DNA polymerase epsilon is involved in the replication of chromosomal DNA and/or in a repair process that may be substantially activated during the replication of chromosomal DNA. A hypothetical role for DNA polymerase epsilon in a repair process coupled to replication is discussed.     

Effect of fasting on thyroid hormone levels, and TR(alpha) and TR(beta) mRNA accumulation in late-stage embryo and juvenile rainbow trout, Oncorhynchus mykiss

The accumulation of mRNA encoding for hepatic and intestinal T3-receptor (TR) and body and liver masses were measured in fed and 3-week fasted juvenile and swim up stage rainbow trout embryos. Plasma and total body thyroid hormone (TH) levels were measured for juvenile and swim up stages, respectively. Fasted juveniles exhibited a lower hepatosomatic index (HSI), liver mass and plasma T4 and T3 concentrations than fed animals, but there were no changes in body mass or the accumulation of mRNA encoding for either of the TR(alpha) or TR(beta) isoforms in liver or intestine. TR(beta) mRNA accumulation was greater than TR(alpha) mRNA accumulation in both tissues. Fasted embryos had lower whole body TH levels and body, liver and intestinal tract masses, in addition to a lower intestinosomatic index. However, there was no change in HSI. Fasting did not affect whole body or hepatic TR(alpha) and TR(beta) mRNA accumulation, although intestinal tract TR(alpha) and TR(beta) mRNA accumulation was lower in the fasted embryos. The HSI and body mass changes in fasted juvenile and embryo stages, respectively, indicated that both developmental stages were impacted by fasting. Both stages also showed evidence of decreased TH production. The lower TR gene expression in the intestinal tract of fasted embryos may suggest a role for THs in the transitional stage of intestinal development during this period of development.     

Spectral analysis of chromatin and its components in the vacuum ultraviolet region of the spectrum

Electronic absorption spectra of thin films of chromatin and chromatin components in ultraviolet (140-280 nm) were investigated. The absorption coefficients mu (lambda) of chromatin, nucleosomes with and without histone H1, total histones (TH), DNA were compared. The spectra of nucleosomes and chromatin differ from summary spectra of DNA + TH. The lack of additivity of absorption coefficients at different wavelengths may be explained by different conformational changes of free DNA, TH and DNA, TH in nucleosomes and chromatin during the process of drying aqueous solutions for the preparations of thin films. The obtained mu (lambda) values are necessary for the estimation of the DNA and TH parts of absorption in chromatin and nucleosomes in the investigations of UV and VUV irradiation damages.     

Repetitive DNA in differentiating chick tissues

Embryonic chick DNA from different tissues was examined for differences in relative content of highly repetitive DNA which might indicate specific DNA amplification in somatic cells. The content of repetitive sequences in DNA isolated from cerebrum, muscle, and neural retina tissues, at the same and at different embryonic stages, was determined by hydroxyapatite fractionation of partially reassociated DNA samples. An unrenatured marker DNA (C14-labeled E. coli DNA) was added to each chick DNA sample in order to monitor the nonspecific single-stranded DNA retention by each hydroxyapatite column. When chick DNA samples were sheared to a double-stranded length of 1,300 nucleotide pairs, an average of 20.2% +/- 2.2% of the DNA was found to reassociate at a Cot value of 10. The quantity of the fast reassociating sequences was found to constitute the same fraction of the DNA in all the tissues studied. In addition, all the reassociated DNA samples exhibited the same CsCl density classes. The studies also indicated that most chick DNA repetitive sequences are interspersed with nonrepetitive sequences.     

The role of DNA polymerases alpha, beta and gamma in nuclear DNA synthesis.

The effects of the inhibitors 2'3' dideoxythymidine triphosphate (ddTTP) and 1-beta-D-arabinofuranosyl cytosine triphosphate (araCTP) on DNA synthesis in isolated S-phase HeLa S3 nuclei have been examined. These effects are compared with the effects of the same inhibitors in partially purified preparations of DNA polymerases alpha and beta. The effect of ddTTP on partially purified DNA polymerase gamma was also tested. DNA polymerases beta and gamma were very sensitive to ddTTP whereas DNA polymerase alpha and DNA synthesis in isolated nuclei were quite resistant. The synthesis and subsequent ligation of primary DNA pieces ('Okazaki fragments') were not affected by the presence of this inhibitor. DNA synthesis in isolated nuclei and DNA polymerase alpha activity were very sensitive to araCTP whereas DNA polymerase beta was almost totally resistant to the inhibitor. The results indicate a major role for DNA polymerase alpha in DNA replication.     

The citrus flavonoid naringenin stimulates DNA repair in prostate cancer cells

As part of a systematic study of the effects of phytochemicals beyond antioxidation on cancer prevention, we investigated whether naringenin (NR), a citrus flavonoid, stimulates DNA repair following oxidative damage in LNCaP human prostate cancer cells. The 8-hydroxydeoxyguanosine (8-OH-dG) to deoxyguanosine (dG) ratio was measured after cells were treated with 200 micromol/L of ferrous sulfate in serum-free medium followed by NR exposure for 24 h in growth medium. The results demonstrated that exposure to 10-80 micromol/L of NR led to a significant decrease in the ratio of 8-OH-dG to 10(6) dG. Because cells were treated with NR after ferrous sulfate was removed, we conclude that we demonstrated an effect on DNA repair beyond antioxidation. In support of this conclusion, we determined the induction of mRNA expression over time after oxidative stress followed by NR administration of three major enzymes in the DNA base excision repair (BER) pathway: 8-oxoguanine-DNA glycosylase 1 (hOGG1), apurinic/apyrimidinic endonuclease and DNA polymerase beta (DNA poly beta). hOGG1 and DNA poly beta mRNA expression in cells after 24-h exposure to NR was increased significantly compared with control cells without NR. The intracellular concentration of NR after exposure to 80 micromol/L was 3 pmol/mg protein, which is physiologically achievable in tissues. In conclusion, the cancer-preventive effects of citrus fruits demonstrated in epidemiological studies may be due in part to stimulation of DNA repair by NR, which by stimulating BER processes may prevent mutagenic changes in prostate cancer cells.     

The roles of DNA polymerases alpha, beta, and gamma in DNA repair synthesis induced in hamster and human cells by different DNA damaging agents

The involvement of DNA polymerases alpha, beta, and gamma in DNA repair synthesis was investigated in subcellular preparations of cultured hamster and human cells. A variety of DNA damaging agents, including bleomycin, neocarzinostatin, UV irradiation, and alkylating agents, were utilized to induce DNA repair. The sensitivity of repair synthesis, as well as replicative synthesis and purified DNA polymerase beta activity, to inhibition by the DNA polymerase inhibitors dideoxythymidine triphosphate, aphidicolin, cytosine arabinoside triphosphate, and N-ethylmaleimide was determined. No evidence was obtained for a major role of polymerase gamma in any type of repair synthesis. In both hamster and human cells, the sensitivity of bleomycin- and neocarzinostatin-induced repair synthesis to ddTTP inhibition was essentially identical with that observed for purified polymerase beta, indicating these repair processes proceeded through a mechanism utilizing polymerase beta. Repair synthesis induced by UV irradiation and alkylating agents was not sensitive to ddTTP, indicating repair of these lesions occurred through a pathway primarily utilizing a different DNA polymerase; presumably polymerase alpha. However, replicative synthesis was much more sensitive to polymerase alpha inhibitors than was repair synthesis induced by UV irradiation or alkylating agents. Neither the amount of DNA damage nor the amount of induced repair synthesis influenced the degree to which the different DNA polymerases were involved in repair synthesis. The possibility that "patch size" or the actual type of DNA damage determines the extent to which different polymerases participate in DNA repair synthesis is discussed.