Differential DNase I sensitivity of the two complementary nucleosomal DNA strands in cycloheximide-treated Ehrlich ascites tumor cells

The accessibility of the two complementary DNA strands in newly replicated chromatin of Ehrlich ascites tumor (EAT) cells grown under conditions of cycloheximide-inhibited protein synthesis was studied by analysis of the DNase I digestion of isolated nuclei. Bulk DNA was labeled with 14C-thymidine and the newly synthesized strands - with bromodeoxyuridine and 3H-thymidine. The DNase I digests were fractionated in two successive CsCl density gradient centrifugations to obtain a dense fraction containing 15-20% newly replicated DNA. Analysis of the distribution of 14C-labeled parental DNA fragments complementary to the 3H-nascent strand has shown that the 14C-labeled fragments prevail in the region of 30-50 nucleotides. Simulation experiments using the rate constants for DNase I attack show that this result may be explained by an enhanced accessibility at the nucleosomal 5'-end region of the parental strands, where the H2a-H2b dimer interacts with DNA. This asymmetry seems to be induced by interactions in the chromatin.     

Propidium iodide staining correlates with the extent of DNA degradation in isolated nuclei.

Gradual degradation of internucleosomal DNA is a hallmark of apoptosis and can be simulated by incubating isolated thymocyte nuclei in the presence of 5 mM Mg2+ and 5 mM Ca2+ at 37 degrees C. Staining of nuclei with the DNA binding fluorescent dye propidium iodide (PI) showed that intensity of fluorescence correlated with the extent of DNA degradation. PI fluorescence was increased in the presence of DNase I. Thus it seems that the cleavage of chromatin DNA by DNase 1 or by the endogenous enzyme increases the accessibility of DNA for the dye. No increase of fluorescence was observed in the presence of the known inhibitors of the endogenous endonuclease: Zn2+ and EGTA. However, the presence of Zn2+ led to decreased staining of the nuclei by PI and caused a shift in the scatter profile of the nuclei, suggesting that a conformational change of chromatin is induced by this ion. This correlation between intensity of PI staining and DNA degradation should be useful to compare endogenous nuclease levels in lymphocyte populations.     

Differential DNase I Sensitivity of the Two Complementary Nucleosomal DNA Strands in Cycloheximide-Treated Ehrlich Ascites Tumor Cells

Abstract

The accessibility of the two complementary DNA strands in newly replicated chromatin of Ehrlich ascites tumor (EAT) cells grown under conditions of cycloheximide-inhibrted protein synthesis was studied by analysis of the DNase I digestion of isolated nuclei. Bulk DNA was labeled with ¹⁴C-thymidine and the newly synthesized strands - with bromodeoxyu ridine and ³H-thymidine. The DNase I digests were fractionated in two successive CsCl density gradient centrifugations to obtain a dense fraction containing 15–20% newly replica ted DNA Analysis of the distribution of ¹⁴C-labeled parental DNA fragments complementary to the ³H-nascent strand has shown that the ¹⁴C-labeled fragments prevail in the region of 30–50 nucleotides. Simulation experiments using the rate constants for DNase I attack show that this result may be explained by an enhanced accessibility at the nucleosomal 5′-end region of the parental strands, where the H2a-H2b dimer interacts with DNA. This asymmetry seems tobe induced by interactions in the chromatin.     

Sex-specific alterations in chromatin conformation of the brain of aging mouse

Chromatin conformation has been analysed in the brain cortex of adult (24±2 weeks) and old (65±4 weeks) male and female mice. Nuclei purified from different groups of mice were digested with MNase and DNase I for varying time periods (0–90 min), and with endogenous endonucleases for 1 h. MNase and DNase I digestion kinetics showed that the percentage of acid solubility of chromatin was relatively lower in old than adult and in female than male. This was further supported by electrophoretic analysis of nuclease digested DNA fragments. When the nuclei were incubated with only Ca²⁺or mg²⁺, no endonuclease digestion was observed. However, under similar conditions, the liver DNA was cleaved substantially. When divalent cations were added together, they activated endogenous endonucleases and digested the brain chromatin. The activity of Ca²⁺/Mg²⁺-dependent endogenous endonucleases was higher in male than female. Thus the accessibility of chromatin to MNase, DNase I and endogenous endonucleases was higher in male than female, and MNase as well as DNase I were more active in adult than old. Such sex- and age-dependent conformation of chromatin may attribute to differential expression of genes in the mouse brain.     

Differences in the accessibility of methylated and unmethylated DNA to DNase I.

DNase I binds in the minor groove of DNA and is used as an enzymatic tool to investigate the interaction of proteins with DNA. Here we show that the major groove located 5-methyldeoxycytidine can enhance or inhibit the cleavage rates of DNA by DNase I. This effect may be caused in part by changes in DNA structure affecting the accessibility of the minor groove of DNA to DNase I.     

Thymocyte apoptosis induced by phosphorylation of histones is associated with the change in chromatin structure to allow easy accessibility of DNase

The inhibitors of protein phosphatase such as calyculin A and okadaic acid induce the apoptotic cell death in rat thymocytes. To clarify the molecular mechanism of these inhibitor-induced apoptosis, the effect of calyculin A on DNA fragmentation in the isolated nuclei were studied. A significant increase in DNA fragmentation was observed in the nuclei prepared from the cells treated with calyculin A that caused histone hyperphosphorylation. No changes of the activities of caspase-8 and -3 were observed in the extract from the cells treated with calyculin A. The circular dichroism analysis of soluble chromatin from calyculin A-treated thymocyte nuclei indicated that phosphorylation of histones decreased its alpha-helical content. Thus, the change in the chromatin structure may be due to the chemical modification of histones. Moreover, the structural change in chromatin preceded DNA fragmentation in the nuclei. Therefore, these results suggest that the change of chromatin structure allow easy accessibility of nuclear DNase to chromosomal DNA.     

Nuclease sensitivity of estradiol-charged estrogen receptor binding sites in nuclei isolated from normal and neoplastic rat mammary tissues

The interaction of partially purified calf uterine estradiol-charged estrogen receptor ([3H]ER) with rat nuclei was studied in vitro. We previously observed a significantly greater number of [3H]ER binding sites (at saturation) in nuclei of R3230AC mammary tumors from intact vs ovariectomized (ovex) rats with no difference in the affinity of [3H]ER binding for these nuclei. We now report on the nuclease sensitivity of [3H]ER binding sites in nuclei from these tumors and from normal rat tissues. Digestion of tumor nuclei with deoxyribonuclease I (DNase I) prior to incubation with [3H]ER in vitro resulted in a progressive loss of [3H]ER binding capacity, which was not accompanied by alterations in the affinity of [3H]ER for the nuclei (Kd = 1-3 nM). A significantly lower concentration (P less than 0.005) of DNase I eliminated 50% of the [3H]ER binding sites in nuclei of tumors from intact hosts (8 unit.min/ml) compared to tumors from ovex hosts (22 unit.min/ml). These results indicate that DNA regions capable of binding ER are more susceptible to DNase I digestion in tumors from intact rats than those from ovex hosts, suggesting that the endogenous hormonal milieu is responsible, at least in part, for maintenance of nuclease-sensitive DNA conformations in this hormone-responsive mammary tumor. The amount of DNase I required to eliminate 50% of [3H]ER binding to nuclei from lactating mammary gland, liver, and kidney ranged from 14 to 56 unit.min/ml. Therefore, accessibility of [3H]ER binding sites to nuclease digestion in normal rat tissue is generally less than that of R3230AC tumors.     

Response of isolated nuclei to phospholipid vesicles: a two dimensional gel electrophoresis analysis of H2SO4 soluble nuclear proteins after treatment with phosphatidylserine

H2SO4 soluble proteins extracted from nuclei incubated with phosphatidylserine multilamellar vesicles (PS MLV) have been analysed by means of two-dimensional gel electrophoresis with particular attention to the uH2A fraction. A reduction of H1, H1 degrees and proteins A5, B7, B15 and B23 has been observed in lipid treated nuclei, while the core histones, as well as uH2A are unaffected by liposome treatment. Since these proteins show in vitro the same binding affinity for PS, their behaviour appears to be related to difference in localization in the nucleosome, responsible for their variable accessibility in the chromatin. These results might explain how this phospholipid induces a decondensation of chromatin and a stimulation of RNA synthesis.     

Closely spaced nucleosome cores in reconstituted histone.DNA complexes and histone-H1-depleted chromatin

It has been demonstrated by digestion studies with micrococcal nuclease that reconstitution of complexes from DNA and a mixture of the four small calf thymus histones H2A, H2B, H3, and H4 leads to subunits closely spaced in a 137 +/- 7-nucleotide-pair register. Subunits isolated from the reconstituted complex contain nearly equimolar amounts of the four histones and sediment at 11.6S. On DNase I digestion both the reconstituted complex and the separated subunits gave rise to series of single-stranded DNA fragments with a 10-nucleotide periodicity. This indicates that the reconstitution leads to subunits very similar to nucleosome cores. Nucleosome cores closely spaced in a 140-nucleotide-pair register were also obtained upon removal of histone H1 from chromatin by dissociation with 0.63 M NaCl and subsequent ultracentrifugation. In reconstitution experiments with all five histones (including histone H1) our procedure did not lead to tandemly arranged nucleosomes containing about 200 nucleotide pairs of DNA. In the presence of EDTA, DNase II cleaved calf thymus nuclei and chromatin at about 200-nucleotide-pair intervals whereas in the presence of Mg2+ cleavage at intervals of approximately half this size was observed. The change in the nature of the cleavage pattern, however, was no longer found after removal of histone H1 from chromatin. This indicates that H1 influences the accessibility of DNase II cleavage sites in chromatin. This finding is discussed with respect to the influence of histone H1 on chromatin superstructure.     

Alterations of neuronal nuclear matrix and chromatin structure after irradiation under aerobic and anoxic conditions

This study was undertaken to determine if structural alterations of the bulk chromatin and the amount of protein associated with the nuclear matrix in cerebellar neurons depend on radiation dose and a cell's state of oxygenation. After irradiation with 2.5 to 25.0 Gy under both aerobic and anoxic conditions, the sensitivity of the neuronal chromatin to m. nuclease digestion increase linearly with dose up to about 5 Gy, beyond which there was no further increase. The same increase in accessibility of chromatin to micrococcal nuclease digestion was observed when neuronal nuclei were irradiated at 4 degrees C. Neuronal nuclei were stained with propidium iodide (PI) for DNA and with fluorescein isothiocyanate (FITC) for protein, both before and after complete digestion with DNase I, and analyzed by flow cytometry. There was no change in either the PI (P greater than 0.4) or the FITC (P greater than 0.9) fluorescence of undigested nuclei after irradiation. For the DNase I digested nuclei, the PI fluorescence was unchanged after irradiation (P greater than 0.4), but the FITC fluorescence increased significantly (P less than 0.02). This increase in the FITC fluorescence was linear with dose up to about 5 Gy, beyond which there was no further increase. The flow cytometry results from DNase I digested nuclei were identical for neurons irradiated under aerobic or anoxic conditions, indicating that this phenomenon is oxygen independent. This increase in FITC fluorescence after irradiation was inhibited at ice-cold temperatures and probably reflects an increase in protein content at the nuclear matrix that requires metabolism. This may explain our previously observed resistance of nuclear matrix-associated DNA to digestion by DNase I. This protein increase at the nuclear matrix appears to follow "saturation" kinetics identical to that previously reported for repair of DNA strand breaks in cerebellar neurons. However, the exact molecular nature of this process and its role in DNA repair or cell survival remains to be determined.     

Chromatin structure variation in successful and unsuccessful arbuscular mycorrhizas of pea

Summary Lincoln and Frisson varieties of endomycorrhiza-forming pea plants and isogenic mycorrhiza-resistant Frisson mutant (P2) plants were inoculated withGlomus mosseae. Nuclei released from inoculated and non-inoculated (control) roots were analysed for chromatin structure and activity using flow cytometric techniques. Chromatin accessibility to the specific DNA fluorochrome DAPI at saturating and non-saturating concentrations was measured. DNA fluorescence of nuclei of mycorrhizal Lincoln and wild genotype Frisson plants was significantly increased, compared to the controls, at saturating and, more strongly, at non-saturating DAPI concentrations. In contrast, the nuclei of inoculated P2 mutant roots showed a much lower increase in fluorescence, compared to uninoculated controls. Nuclei released from mycorrhiza-infected Lincoln roots were more sensitive to DNase I than those of uninfected ones. These results indicate a dramatic increase in that portion of the genome which can be transcribed in response to AM infection.Abbreviations AM arbuscular mycorrhizas - CRBCs chicken red blood cells - CV coefficient of variation - DAPI 4 6-diamidino-2-phenylindole - DNase I deoxyribonuclease I - EDTA ethylenediamine tetraacetic acid - FCM flow cytometry - TMN Tris MgCl₂ NaCl buffer     

The reactive SH1 and SH2 cysteines in myosin subfragment 1 are cross-linked at similar rates with reagents of different length

Nuclei prepared from confluent and mitotically arrested populations of human diploid fibroblast-like cells of different $\text{in}\text{vitro}$ ages were subjected to digestion by micrococcal nuclease and DNase I. There was no age or culture state variation in the susceptibility of DNA to micrococcal nuclease digestion. There was, however, an age related inhibition of DNA digestion by DNase I in nuclei from older confluent but not older arrested cells. It is suggested that this is the result of an age related masking by nucleosome core histones which limits the accessibility of DNA to enzymatic activities in older confluent cells.     

Deoxyribonuclease I produces staggered cuts in the DNA of chromatin

The relationship of cuts made by deoxyribonuclease I (DNase I, EC. 3.1.4.5) on the two strands of DNA of chromatin has been investigated. DNA was extracted from a DNase I digest of rat liver nuclei and incubated with the large fragment of DNA polyrnerase I. Analysis of the products of this incubation indicates the cuts made by DNase I on opposite strands are staggered with respect to one another. A cut on one strand is about two bases in the 3′ direction or eight bases in the 5′ direction from the position on its own strand which is directly across from the cut on the other strand. A different result is obtained when a DNase I digest of native DNA is analyzed. Current models for the organization of DNA in the nucleosome are discussed with respect to these results.     

Ability of hamster spermatozoa to digest their own DNA

Mammalian sperm chromatin is bound by protamines into highly condensed toroids with approximately 50 kilobases (kb) of DNA. It is also organized into loop domains of about the same size that are attached at their bases to the proteinaceous nuclear matrix. In this work, we test our model that each sperm DNA-loop domain is condensed into a single protamine toroid. Our model predicts that the protamine toroids are linked by chromatin that is more sensitive to nucleases than the DNA within the toroids. To test this model, we treated hamster sperm nuclei with DNase I and found that the sperm chromatin was digested into fragments with an average size of about 50 kb, by pulse-field gel electrophoresis (PFGE). Surprisingly, we also found that spermatozoa treated with 0.25% Triton X-100 (TX) and 20 mM MgCl2 overnight resulted in the same type of degradation, suggesting that sperm nuclei have a mechanism for digesting their own DNA at the bases of the loop domains. We extracted the nuclei with 2 M NaCl and 10 mM dithiothreitol (DTT) to make nuclear halos. Nuclear matrices prepared from DNase I-treated spermatozoa had no DNA attached, suggesting that DNase I digested the DNA at the bases of the loop domains. TX-treated spermatozoa still had their entire DNA associated with the nuclear matrix, even though the DNA was digested into 50-kb fragments as revealed by PFGE. The data support our donut-loop model for sperm chromatin structure and suggest a functional role for this type of organization in that sperm can digest its own DNA at the sites of attachment to the nuclear matrix.     

Aging and Loss of Germination in Rye Seeds Is Accompanied by a Decreased Fragmentation of Nuclear DNA at Loop Domain Boundaries

To investigate the processes that occur in the embryo cell nuclei in the course of natural and accelerated aging of rye seeds, nuclear DNA structural organization into chromatin loop domains was studied. The loss of germination was shown to be accompanied by a decreased excision of chromatin loop domains. The study of chromatin accessibility to DNase I did not reveal any considerable changes in chromatin architecture that would explain the decreased DNA fragmentation at matrix attachment regions. A soluble nuclear protein of ca. 31 kD was found to manifest nuclease activity, which declined with the loss of germination. The study of DNA fragmentation in histone-depleted nuclei (nucleoids) disclosed a nuclease activity resistant to 2 M NaCl extraction and sensitive to the specific inhibitors of DNA topoisomerase II; the latter activity also declined with aging. The authors conclude that the changes in DNA fragmentation patterns in aging seeds were primarily caused by a decreased activity of the enzymes accounting for the excision of chromatin loop domains.     

The effect of phospholipase C on DNA synthesis, morphology and phospholipid content of isolated HeLa cell nuclei.

Isolated HeLa cell nuclei have been treated with purified phospholipase C (Bacillus cereus) and sphingomyelinase (Staphylococcus aureus). The phospholipids of untreated nuclei consisted of about 67% phosphatidylcholine, 23% phosphatidylethanolamine, 7% sphingomyelin, 2% phosphatidylserine and 1% phosphatidylinositol. Phospholipase C degraded 80-90% of the total phospholipids of the nuclei. Such nuclei seemed ultrastructurally intact, and had an average diameter and a protein loss during incubation which were not significantly different from those of controls. Their rate of DNA synthesis was only slightly reduced after treatment with phospholipase C alone and slightly more reduced when phospholipase C was used in combination with sphingomyelinase. This suggests that the polar head-groups of the nuclear phospholipids are of very limited importance in DNA synthesis. Since it has been reported that phospholipase C treatment releases nascent DNA from a membrane complex, the absence of a concommitant reduction in DNA synthesis may suggest that this complex is not necessary for the replication of DNA. Phospholipase C did not significantly influence the stability of the DNA product and gave only a slight inhibition of cytosol and nuclear DNA polymerases when tested with exogenous template.