Ca2+, Mg2+-dependent endonuclease activity in different subpopulations of spleen cells from normal and erythroleukemic mice

We have detected Ca2+, Mg2+-dependent endonuclease activity in spleen cells of normal, Friend erythroleukemic, and phenylhydrazine-treated mice. When nuclei were isolated and incubated in the presence of Ca2+ and Mg2+ ions, the activity resulted in the production of 3'-OH termini in the cellular DNA and the release of chromatin due to internucleosomal DNA fragmentation. This enzyme activity was chromatin-bound and could be extracted from chromatin in an active form in 0.35 M KCl. The majority of endonuclease activity from erythroleukemic spleens was present in nuclei of precursor erythroid cells of low buoyant density (1.025-1.05 g/ml). Uninfected normal splenic tissue contained an endonuclease activity which was almost entirely confined to a B-lymphocyte population of high buoyant density (greater than 1.07 g/ml). Erythroid cell-enriched spleens from phenylhydrazine-treated mice exhibited a distribution of endonuclease activity in cells at low and high densities reflecting a mixture of erythroid and lymphoid cells. Cloned erythroleukemic cell lines propagated in vitro lacked cells of low density and showed no detectable endonuclease activity. However, nuclei from these cell lines were susceptible to exogenously added endonuclease extracted from erythroleukemic spleen cells. These same cell lines propagated as subcutaneous tumors contained endonuclease activity and a morphologically-similar low-density cell population which accounted for the endonuclease activity in these tumors. Nuclei from cloned lymphoid cell lines, representing different B-lymphocyte phenotypes, showed differences in the presence of endonuclease activity. Among the cell lines tested, only those expressing late B-cell markers showed detectable endonuclease activity.     

Differential effects of ca2+ and Mg2+ on endonuclease activation in isolated promyelocytic HL-60 cell nuclei

In autodigestion assays, endonucleaw activity in non-apoptotic HL-60 promydocytic leukemia cell nuclei cleaved the chromatin of he autologous cells to an oligonucleosomal length pattern. Both EGTA and EDTA inhibited the activation of endonuclease activity in isolated HL-60 cell nuclei. The inhibition by EDTA could be reversed by exogenous Ca²⁺. but not by exogenous Mg²⁺. In Ca²⁺/Mg²⁺-free nuclei digation buffer, addition of Ca^2→ (1-10 mmol/L) induced endonuclease activity in the isolated nuclei, while addition of Mg²⁺ had no effect. In the presence of Ca²⁺(0.1 mmol/L), endonuclease activity was enhanced by exogenous Mg²⁺ (0.1-10mmol/L). These results suggest that the endonuclease responsible for internucleosomal DNA fragmentation in HL-60 cells during apoptosis is activated by Ca²⁺ and further modulated by Mg²⁺ in the presence of ca²⁺.     

A constitutively activated erythropoietin receptor stimulates proliferation and contributes to transformation of multipotent, committed nonerythroid and erythroid progenitor cells.

If the env gene of spleen focus-forming virus (SFFV) is replaced by a cDNA encoding a constitutively active form of the erythropoietin receptor, EPO-R(R129C), the resultant recombinant virus, SFFVcEPO-R, induces transient thrombocytosis and erythrocytosis in infected mice. Clonogenic progenitor cell assays of cells from the bone marrow and spleens of these infected mice suggest that EPO-R(R129C) can stimulate proliferation of committed megakaryocytic and erythroid progenitors as well as nonerythroid multipotent progenitors. From the spleens of SFFVcEPO-R-infected mice, eight multiphenotypic immortal cell lines were isolated and characterized. These included primitive erythroid, lymphoid, and monocytic cells. Some expressed proteins characteristic of more than one lineage. All cell lines resulting from SFFVcEPO-R infection contained a mutant form of the p53 gene. However, in contrast to infection by SFFV, activation of PU.1 gene expression, by retroviral integration, was not observed. One cell line had integrated a provirus upstream of the fli-1 gene, in a location typically seen in erythroleukemic cells generated by Friend murine leukemia virus infection. This event led to increased expression of fli-1 in this cell line. Thus, infection by SFFVcEPO-R can induce proliferation and lead to transformation of nonerythroid as well as very immature erythroid progenitor cells. The sites of proviral integration in clonal cell lines are distinct from those in SFFV-derived lines.     

Queuosine deficient tRNAHis and tRNAAsp from the spleens of young mice,erythroleukemic tumoral spleens and cultured Friend cells

tRNAs were isolated from the spleens of young mice, erythroleukemic spleens and cultured Friend cells. Queuosine (Q) deficient tRNAs were labelled in their anticodon with radioactive guanine using the exchange reaction catalyzed by E. coli tRNA-guanine transglycosylase. tRNAs were then specifically aminoacylated. In both normal and tumoral spleen (TF-P10), tRNA^His was the main guanine containing (G) isoacceptor as shown by RPC-5 chromatography. In vitro, the tumor derived cell line (TF-P10c) retained the G-tRNA^His species while Friend cell line, clone 707 (FLC), did not. A common feature found in both cultured cell lines was the high level of G-tRNA^Asp. The meaning of the relative abundance of Q-deficient tRNA^His and of tRNA^Asp observed in transformed cells of erythroid origin is discussed.     

Glucocorticoid-induced changes in liver: Inhibition of nuclear Ca2+, Mg2+-dependent endonuclease activity in response to dexamethasone administration

The endogenous Ca²⁺, Mg²⁺-dependent endonuclease activity in nuclei from livers of rats receiving daily injections of the synthetic glucocorticoid dexamethasone was examined with respect to the production of both single and double strand breaks in chromatin DNA. The ability to form single strand breaks was measured by means of a nick translation assay and double strand breaks by following the appearance of nucleosomal ladders. A fall in the activity causing double strand breaks to approximately 50 per cent of the control value was apparent at 12 h after the first injection of the steroid. A fall of 25–30 per cent was also observed in the nicking activity but this was not apparent until 24 h after the first steriod injection. Both endonuclease activities remained at these lower levels for the remainder of the period of treatment. Nuclear extracts from dexamethasone-treated rats also showed a reduced ability to produced nucleosomal ladders when incubated with rat muscle nuclei, indicating that the inhibition observed in intact nuclei from treated animals was independent of any changes in chromatin structure. On the other hand the nick translation activity of the two extracts was the same when calf thymus DNA was used as the substrate suggesting that steriod-induced alterations in chromatin structure may be a critical factor in the reduced level of this activity observed in intact nuclei.     

The involvement of nuclear nucleases in rat thymocyte DNA degradation after γ-irradiation

Possible mechanisms of internucleosomal DNA fragmentation in thymocytes of irradiated rats were studied. It was shown that thymocyte nuclei contain at least two nucleases that cleave DNA between nucleosomes — a Ca²⁺/Mg²⁺-dependent nuclease and an acidic one which does not depend on bivalent ions. 2 and 3 h after irradiation at a dose of 10 Gy the initial rate of DNA cleavage by Ca²⁺/Mg²⁺-dependent nuclease in isolated nuclei increased three and seven times, respectively, but the kinetics of DNA digestion by acidic nuclease did not change. The experiments with cycloheximide indicated that Ca²⁺/Mg²⁺-dependent endonuclease turns over at a high rate. The activity of the cytoplasmic acidic and Mg²⁺-dependent nucleases was shown to increase (by 40 and 50%, respectively) 3 h after irradiation. The effect is caused by the de novo synthesis of the nucleases. At the same time the activity of nuclear nucleases did not essentially change. The chromatin isolated from rat thymocytes 3 h after irradiation did not differ in its sensitivity to some exogenic nucleases (DNAase I, micrococcal nuclease and nuclease from Serratia marcescens) from the control. Thus, Ca²⁺/Mg²⁺-dependent endonuclease seems to be responsible for the postirradiation internucleosomal DNA fragmentation in dying thymocytes.     

Expression of 18.6/CD23 Antigen on Human Lymphoid Progenitor Cell Lines and Phorbol 12-Myristate 13-Acetate (PMA)-Induced Microglia-Shaped Cells

The nature of lymphoid progenitors and factor(s) determining commitment to either the T- or B-lymphocyte pathway are poorly understood in the human system. In this study, we generated a monoclonal antibody (MoAb), 18.6, that recognizes a cell surface antigen on a human lymphoid progenitor cell line (FL4.4). MoAb 18.6 reacted with lymphoid progenitor lines, B lymphoid cell lines, and myelomonocytic cell lines. It did not react with any T cell or erythroid leukemic cell lines. Two color FACS analyses of normal lymphoid tissues showed that MoAb 18.6 reacted with a majority of CD20⁺ mature B cells and a minority of CD64⁺ monocytes. Molecules of 3 different sizes with MW of 34, 45, and 68 Kd were precipitated with MoAb 18.6 from the lymphoid progenitor cell line. The 18.6 antigen was not expressed on a fetal liver-derived lymphoid progenitor-like cell line, FL1.4, which has the capacity to differentiate into microglia-shaped cells upon PMA-stimulation. Stimulation of FL1.4 cells with PMA induced expression of the 18.6 antigen within 24 hr and the microglia-shaped cells stained positively with MoAb 18.6. Finally, cloning of a cDNA that encoded the 18.6 antigen revealed that the 18.6 antigen is identical to the CD23 antigen. Taken together, these data suggest that the 18.6/CD23 antigen is expressed on lymphoid precursors at a very early stage of differentiation.     

Mechanism of UV-Induced Apoptosis in Human Leukemia Cells: Roles of Ca/Mg-Dependent Endonuclease, Caspase-3, and Stress-Activated Protein Kinases

Ultraviolet light (UV) induced rapid apoptosis of U937 leukemia cells, concurrent with DNA fragmentation and cleavage of poly(ADP-ribose)polymerase (PARP) by activated caspase-3. Thein vitroreconstitution of intact HeLa S3 nuclei and apoptotic U937 cytosolic extract (CE) revealed that (i) Ca²⁺/Mg²⁺-dependent, Zn²⁺-sensitive endonuclease activated in the apoptotic CE induced DNA ladder in HeLa nuclei at pH 6.8–7.4, (ii) activated caspase-3 cleaved PARP in HeLa nuclei, and (iii) when the apoptotic CE was treated with the caspase-3 inhibitor (1 μM Ac-DEVD-CHO) or the caspase-1 inhibitor (10 μM Ac-YVAD-CHO), the former, but not the latter, caused a 50% inhibition of DNA fragmentation and the complete inhibition of PARP cleavage in HeLa nuclei. Similarly, Ac-DEVD-CHO (100 μM) inhibited apoptosis and DNA ladder by 50% and PARP cleavage completely in UV-irradiated U937 cells, but Ac-YVAD-CHO (100 μM) did not. Thus, UV-induced apoptosis of U937 cells involves the Ca²⁺/Mg²⁺-dependent endonuclease pathway and the caspase-3–PARP cleavage–Ca²⁺/Mg²⁺-dependent endonuclease pathway. The former pathway produced directly 50% of apoptotic DNA ladder, and the latter involved activated caspase-3 and PARP cleavage, followed by formation of the remaining 50% DNA ladder by the activated endonuclease. In UV-irradiated B-cell lines, further, p53-dependent increase of Bax resulted in a greater caspase-3 activation compared to its absence. However, UV-induced activation of JNK1 and p38 was not affected by the caspase-1 and -3 inhibitors in U937 cells, so that caspases-1 and -3 do not function upstream of JNK1 and p38.     

Differential effects of Ca2+ and Mg2+ on endonuclease activation in isolated promyelocytic HL-60 cell nuclei

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Presence of DNase γ-Like Endonuclease in Nuclei of Neuronal Differentiated PC12 Cells

DNase , which cleaves chromosomal DNA into nucleosomal units (DNA ladder formation), has been suggested to be the critical component of apoptotic machinery. Using rat pheochromocytoma PC12 cells, which are differentiated to sympathetic neurons by nerve growth factor (NGF), we investigated whether DNase -like enzyme is present in neuronal cells and is involved in neuronal cell death. The nuclear auto-digestion assay for DNase catalyzing internucleosomal DNA cleavage revealed that nuclei from neuronal differentiated PC12 cells contain acidic and neutral endonucleases, while nuclei from undifferentiated PC12 cells have only acidic endonuclease. The DNA ladder formation observed in isolated nuclei from neuronal differentiated PC12 cells at neutral pH requires both Ca²⁺ and Mg²⁺, and is sensitive to Zn²⁺. The molecular mass of the neutral endonuclease present in neuronal differentiated PC12 cell nuclei is 32000 as determined by activity gel analysis (zymography). The properties of the neuronal endonuclease present in neuronal differentiated PC12 cell nuclei were similar to those of purified DNase from rat thymocytes and splenocytes. Interestingly, in neuronal differentiated PC12 cells, internucleosomal DNA fragmentation is observed following NGF deprivation, whereas undifferentiated PC12 cells fail to exhibit DNA ladder formation during cell death by serum starvation. These results suggest that the DNase -like endonuclease present in neuronal differentiated PC12 cell nuclei is involved in internucleosomal DNA fragmentation during apoptosis, induced by NGF deprivation.     

Nuclear deoxyribonuclease activities in normal and xeroderma pigmentosum lymphoblastoid cells

Deoxyribonuclease activities were examined in isoelectric focusing fractions of non-histone chromatin-associated and nucleoplasmic proteins of isolated nuclei of normal human and xeroderma pigmentosum, complementation group A, lymphoblastoid cells using parallel procedures. In the nucleoplasm of both cell lines, a very similar series of both DNA endo- and exo-nuclease activities were found; in chromatin a series of similar endonuclease but no exonuclease activites were present. Several differences were observed in the xeroderma pigmentosum cells, however, notably a striking increase in DNA endonuclease activity in a chromatin fraction at pI 4.6 against linear duplex DNA and a decrease in a chromatin endonuclease activity focusing at pI 7.8.     

Nuclear deoxyribonuclease activities in human lymphoblastoid and mouse melanoma cells A comparative study

Deoxyribonuclease activities were examined in isoelectric focusing fractions of non-histone, chromatin-associated and nucleoplasmic proteins of isolated normal human lymphoblastoid and mouse melanoma cell nuclei using parallel procedures. A very similar series of eight DNA endonucleases, each active on calf thymus DNA and containing no exonuclease activity, were found in the chromatin proteins of both cell lines. Several differences were observed: an activity in human cells at pI 6.6 was absent from murine cells, and there was an increased activity in mouse cells at pI 4.4 and a decreased activity at pI 7.3, as compared with corresponding human cell activities. Assay of these fractions against supercoiled, circular phage PM2 DNA showed greater activity among the fractions with acidic pI valves and slightly lower activities in the murine cells than in the human cells. Analysis of the nucleoplasmic fractions showed a series of DNA endonuclease and exonuclease activities which were again very similar between the two cell lines, although greater endonuclease activity at pI 4.4 occurred in mouse than in human nucleoplasm. These results demonstrate an entire series of deoxyribonuclease activities in both chromatin and nucleoplasm which are nearly identical in two very different mammalian cell lines, suggesting that many of these enzymes are ubiquitous in mammalian cell nuclei.     

The possible role of endogenous nucleases in the structural organization of chromatin]

Two fractions of rat liver nuclei with different buoyant density have been obtained. The electrophoretic analysis of the oligonucleosome patterns of DNA out of nuclei of these two fractions revealed different levels of activity in endonucleases. In case of inhibition during the extraction of activity in Ca, Mg-dependent endonucleases, the average size of high polymeric DNA is larger for nuclei with bigger buoyant density (fraction I) than for nuclei with smaller ones (fraction II). This finding is evidence of in situ existence of two pools of liver nuclei with different endogenic nuclease activities. In nuclear chromatin fraction I DNA is torsionally stressed; in fraction II it is relaxed that correlates with larger activity of endonucleases and smaller buoyant density of this fraction. A hypothesis on a possible role of endonucleases in chromatin structure organization has been put forward. According to this hypothesis a modulation of activity in nuclear endonucleases can determine different packaging and activity of chromatin from different pools of cellular nuclei.     

Differential expression of alpha- and beta-globin genes in erythroleukemic cell lines.

The IW32, NN10, and IW201 cell lines are erythroleukemic cell lines isolated from the spleens of mice infected with the Friend virus. IW32 and NN10 cells can be induced toward erythroid differentiation and hemoglobin synthesis by hemin or butyrate. Both cell lines contain some mature alpha- and beta-globin mRNA before induction, and addition of the inducers greatly increases the amount of globin message. Unlike IW32 and NN10 cells, IW201 cells are only partially inducible. Uninduced 201 cells contain a small amount of alpha-globin mRNA but no detectable beta-globin message. After induction, the cells contain markedly increased amounts of alpha-globin mRNA but still do not express the beta-globin gene. Southern blot analysis with 10 restriction enzymes shows that the restriction map of the beta-globin gene in IW201 cells is indistinguishable from that in IW32 and NN10 cells.     

Mn2+-dependent endonuclease activity of chromatin

The endogenous endonuclease activity of chromatin in isolated rat liver nuclei in the presence of Mn2+, Mg2+ and Ca2+ + Mg2+ was studied. The existence of a Mn2+-dependent endonuclease activity not coupled with the Ca2+, Mg2+-dependent endonuclease was demonstrated, which was weaker than the former one in isolated cell nuclei but higher than in the preparation of Ca2+, Mg2+-dependent nuclease obtained by gel filtration through Toyopearl HW 60F. The Mn2+-dependent splitting of chromatin predominantly occurs at linker DNA of distal parts of chromatin loops. A split-off of purified DNA was more universal than in the presence of Ca2+, Mg2+-dependent endonuclease; the hydrolysis rate of native and denaturated DNA appeared to be the same.     

Investigations on chromatin condensation of hen erythrocyte nuclei in vitro. An ultrastructural and biochemical study

Hen erythrocyte nuclei, isolated in non-buffered sucrose, (3 mM Mg²⁺, at low ionic strength) have a condensed chromatin to which hemoglobin is bound. Incubation of the isolated nuclei in 0.125 M phosphate-buffer solutions of increasing pH induces a release of the bound hemoglobin and a swelling of the nuclei. Between pH 6.4 and 7.0 both processes reach a plateau and above pH 7.0 a second steep increase in nuclear volume is observable, leading to nuclear disruption above pH 7.4. Titration at low ionic strength shifts the process of hemoglobin release and nuclear swelling to higher pH values. Hemoglobin release and nuclear swelling are fully reversible by backtitration to pH 5.8. The nuclear swelling and shrinking is observed electron-microscopically as decondensation and condensation of the chromatin. The results of these investigations suggest that hemoglobin acts like a cation in the maintenance of nuclear condensation under the conditions used for the isolation of hen erythrocyte nuclei, but that this action is unlikely the physiological mechanism causing chromatin condensation during the maturation of erythroid cells.     

Detection of endonuclease activity and several features of chromatin autolysis in brain cell nuclei]

The presence of Ca2+, Mg2+-dependent endonuclease activity in isolated brain cell nuclei was demonstrated and a comparison of some peculiarities of chromatin autolysis in rat brain and liver cell nuclei was carried out. Endogenous brain nuclease hydrolyzes chromatin into its structural subunits; its specific activity is 10,5 times as low as compared to the endogenous nuclease activity in rat liver nuclei. The dependency of the chromatin autolysis rate on pH and ionic composition of the incubation medium in isolated rate brain and liver nuclei appeared to be the same. The presence of Mn2+ changed the autolysis nature both in brain and in liver cell nuclei, the relative (as compared to Mg2+-dependent) Mn2+-dependent activity being higher in the brain cell nuclei. Possible differences of brain and liver chromatin structure (e. g. the presence of regions free of nucleosomic organization in brain chromatin) are assumed.     

Isolation and characterization of terminally differentiated chicken and rat skeletal muscle myoblasts

The ability of skeletal muscle myoblasts to differentiate in the absence of spontaneous fusion was studied in cultures derived from chicken embryo leg muscle, rat myoblast lines L6 and L8, and the mouse myoblast line G8. Following 48–96 hr of culture in a low-Ca²⁺ (25 μm), Mg²⁺-depleted medium, chicken myoblasts exhibited only 3–5% fusion whereas up to 64% of the cells fused in control cultures. Depletion of Mg²⁺ led to preferential elimination of fibroblasts, with the result that 97% of the mononucleated cells remaining at 120 hr exhibited a bipolar morphology and stained with antibodies directed against M-creatine kinase, skeletal muscle myosin, and desmin. Mononucleated myoblasts rarely showed visible cross-striations or M-line staining with anti-myomesin unless the medium was supplemented with 0.81 mM Mg²⁺, suggesting that Mg²⁺ plays a role in sarcomere assembly. Conditions of Ca²⁺ and Mg²⁺ depletion inhibited myoblast fusion in the rodent cell lines as well, but mononucleated myoblasts failed to differentiate under these conditions. Differentiated individual myoblasts from rat cell lines and from chicken cell cultures were obtained when fusion was inhibited by growth in cytochalasin B (CB). CB-treated rat myoblast cultures accumulated MM-CK to nearly twice the specific activity found in extensively fused control cultures of comparable age. Spherical cells which accumulated during CB treatment were isolated and shown to contain nearly eight times the CK specific activity present in nonspherical cells from the same cultures. Approximately 90% of these cells exhibited immunofluorescent staining with antibodies to skeletal muscle myosin, failed to incorporate [³H]thymidine or to form colonies in clonal subculture, and thus represent terminally differentiated rat myoblasts. Quantitative microfluorometric DNA measurements on individual nuclei demonstrated that the terminally differentiated myoblasts obtained in these experiments from both chicken and rat contain 2cDNA levels, suggesting arrest in the G₀ stage of the cell cycle.     

(Ca2+ + Mg2+)-ATPase of density-separated human red cells. Effects of calcium and a soluble cytoplasmic activator (Calmodulin)

The effect of calcium and a soluble cytoplasmic activator on (Ca²⁺ + Mg²⁺)-ATPase of density-separated human red cells was investigated. At all calcium concentrations tested, dense (old) lysed cells and their isolated membranes displayed lower activities as compared to the light (young) cells and their membranes. Isolated membranes from all density red cell fractions showed two distinct (Ca²⁺ + Mg²⁺)-ATPase activities; one at low calcium and another at moderate calcium concentrations. At high calcium concentration, (Ca²⁺ + Mg²⁺)-ATPase activity of isolated membranes was low in all cell fractions. In contrast to the isolated membranes, lysed cells from all density fractions had a maximum (Ca²⁺ + Mg²⁺)-ATPase activity only at a low concentration of calcium, while moderate and high calcium concentrations produced low activity. Upon isolation of membranes, a substantial loss of (Ca²⁺ + Mg²⁺)-ATPase activity took place from all density cell fractions. Upon membrane isolation, the relative loss of (Ca²⁺ + Mg²⁺)-ATPase activity at low Ca²⁺ concentration was greater in older cells. The extent of stimulation of (Ca²⁺ + Mg²⁺)-ATPase by the activator at low calcium concentration was 3–4-fold greater in older cell membranes than in the young ones.These data suggest that the lower (Ca²⁺ + Mg²⁺)-ATPase activity in old cells could be accounted for by a selective loss of (Ca²⁺ + Mg²⁺)-ATPase activity at low Ca²⁺ concentration presumably due to reduced affinity of old cell membranes to activator protein.