Occurrence in human bone marrows of an antigen released from continuous cell cultures derived from human leukemia.

Fluorescent antibodies prepared against extracellular particles from a continuous culture of cells derived from a monocytic leukemia stained JIII cells but not cells infected with Rauscher leukemia virus or simian sarcoma virus. These antibodies reacted with 38% of bone marrow preparations from patients with lymphoma, 26% of preparations from patients with nonmalignant blood disorders and 6% of preparations from patients with leukemia. Bone marrow films from patients with lymphoma over the age of 50 stained less frequently than those from patients under 50. These particles released from JIII cells are not antigenically related to two of the commonly studied oncornaviruses, but may be indicative of the etiology or disease process of lymphoma in young patients.     

A comparative evaluation of methods for isolation of RNA-directed DNA polymerase from cells in a reconstituted system.

We have compared the relative merits of several procedures for the isolation of RNA-directed DNA polymerase (EC 2.7.7.7.) from cells using a reconsituted model system consisting of a mixture of woolly monkey (simian) sarcoma virus and a cultured human lymphoblastoid cell line, NC-37. When the cell-virus mixture was gently disrupted and fractionated by differential centrifugation, most of the added polymerase was recovered associated with a particulate fraction obtained from the post-mitochondrial supernatant. Purification of the polymerase was best achieved starting from this fraction. The particulate fraction itself can be purified by gel filtration through a Sepharose 2 B column. This procedure did not significantly alter the composition of viral and cellular DNA polymerases. Whereas as little as 7.5 - 10(5) viral particles were sufficient for the detection of RNA-directed DNA polymerase activity, a minimum of about 10(11) particles were necessary for the isolation and unequivocal characterization of the enzyme from the cell-virus mixture by subcellular fractionation and chromatographic separation from cellular DNA polymerases. Purified RNA-directed DNA polymerase had the same primer-template characteristics, sedimentation properties, and immunological cross reactivity as the enzyme purified from density gradient-banded virions of simian sarcoma virus. Methods involving total extraction of the cell-virus mixture either by repeated freezing and thawing followed by detergent treatment or by Dounce homogenization and treatment with high salt and detergent failed to provide RNA-directed DNA polymerase free of cellular DNA polymerases. Because of this, low levels of cellular RNA-directed DNA polymerase may be missed when these approaches are used.     

Structural relationship between DNA polymerases epsilon and epsilon* and their occurrence in eukaryotic cells.

Monoclonal antibodies raised against the N-terminal half of human DNA polymerase epsilon bind both to a large > 200 kDa form of DNA polymerase epsilon from HeLa cells and to a small 140 kDa form (DNA polymerase epsilon*) from calf thymus, while antibody against the C-terminal half binds to DNA polymerase epsilon but does not bind to DNA polymerase epsilon*. These results indicate that the two enzymes have common structural motifs in their N-terminal halves, and that DNA polymerase epsilon* is very likely derived from DNA polymerase epsilon by removal of its C-terminal half. DNA polymerase epsilon as well as DNA polymerase epsilon* was detected in extracts from cells of numerous eukaryotic species from yeast to human. The results indicate that DNA polymerase epsilon and its tendency to occur in a smaller form, DNA polymerase epsilon*, are evolutionarily highly conserved and that DNA polymerase epsilon may occur universally in proliferating eukaryotic cells.     

Simian virus 40 origin- and T-antigen-dependent DNA replication with Drosophila factors in vitro.

DNA replication of double-stranded simian virus 40 (SV40) origin-containing plasmids, which has been previously thought to be a species-specific process that occurs only with factors derived from primate cells, is catalyzed with an extract derived from embryos of the fruit fly Drosophila melanogaster. This reaction is dependent upon both large T antigen, the SV40-encoded replication initiator protein and DNA helicase, and a functional T-antigen binding site at the origin of DNA replication. The efficiency of replication with extracts derived from Drosophila embryos is approximately 10% of that observed with extracts prepared from human 293 cells. This activity is not a unique property of embryonic extracts, as cytoplasmic extracts from Drosophila tissue culture cells also support T-antigen-mediated replication of SV40 DNA. By using highly purified proteins, DNA synthesis is initiated by Drosophila polymerase alpha-primase in a T-antigen-dependent manner in the presence of Drosophila replication protein A (RP-A; also known as single-stranded DNA-binding protein), but neither human RP-A nor Escherichia coli single-stranded DNA-binding protein could substitute for Drosophila RP-A. In reciprocal experiments, however, Drosophila RP-A was able to substitute for human RP-A in reactions carried out with human polymerase alpha-primase. These results collectively indicate that many of the specific functional interactions among T antigen, polymerase alpha-primase, and RP-A are conserved from primates to Drosophila species. Moreover, the observation that SV40 DNA replication can be performed with Drosophila factors provides a useful assay for the study of bidirectional DNA replication in Drosophila species in the context of a complete replication reaction.     

Persistence of herpes simplex virus type-2 genome in a human leukemic cell line

To study the nature of virus-cell interaction in persistently infected cells we have examined production of infectious virus, synthesis of viral DNA and DNA polymerase in a human leukemic cell line K562. It was found that only one of three K562 cell lines was permissive for limited growth of HSV-2 and infectious virus was released in a cyclical fashion. Intranuclear inclusions with electron-dense fibrils and particles resembling viral structures were observed in the virus-infected but not control K562 cells. Viral DNA synthesis could not be detected by centrifugation in CsCl density gradients; but was readily identified by Southern blot hydridization of virus-infected intracellular DNA with purified viral DNA. Viral DNa polymerase was synthesized by infected cells during active infectious virus production. In one of the two K562 cell lines that did not produce infectious virus, a few DNA fragments from infected cells were found to hybridize with purified viral DNA. These results suggest that variable lengths of HSV-2 genome can be harbored and propagated by different human leukemic K562 cells.     

A unique subpopulation of murine DNA polymerase alpha/primase specifically interacts with polyomavirus T antigen and stimulates DNA replication.

Murine cells or cell extracts support the replication of plasmids containing the replication origin (ori-DNA) of polyomavirus (Py) but not that of simian virus 40 (SV40), whereas human cells or cell extracts support the replication of SV40 ori-DNA but not that of Py ori-DNA. It was shown previously that fractions containing DNA polymerase alpha/primase from permissive cells allow viral ori-DNA replication to proceed in extracts of nonpermissive cells. To extend these observations, the binding of Py T antigen to both the permissive and nonpermissive DNA polymerase alpha/primase was examined. Py T antigen was retained by a murine DNA polymerase alpha/primase but not by a human DNA polymerase alpha/primase affinity column. Likewise, a Py T antigen affinity column retained DNA polymerase alpha/primase activity from murine cells but not from human cells. The murine fraction which bound to the Py T antigen column was able to stimulate Py ori-DNA replication in the nonpermissive extract. However, the DNA polymerase alpha/primase activity in this murine fraction constituted only a relatively small proportion (approximately 20 to 40%) of the total murine DNA polymerase alpha/primase that had been applied to the column. The DNA polymerase alpha/primase purified from the nonbound murine fraction, although far more replete in this activity, was incapable of supporting Py DNA replication. The two forms of murine DNA polymerase alpha/primase also differed in their interactions with Py T antigen. Our data thus demonstrate that there are two distinct populations of DNA polymerase alpha/primase in murine cells and that species-specific interactions between T antigen and DNA polymerases can be identified. They may also provide the basis for initiating a novel means of characterizing unique subpopulations of DNA polymerase alpha/primase.     

Isolation and characterization of a virus-specific ribonucleoprotein complex from reticuloendotheliosis virus-transformed chicken bone marrow cells.

Chicken bone marrow cells transformed by reticuloendotheliosis virus (REV) produce in the cytoplasm a ribonucleoprotein (RNP) complex which has a sedimentation value of approximately 80 to 100S and a density of 1.23 g/cm3. This RNP complex is not derived from the mature virion. An endogenous RNA-directed DNA polymerase activity is associated with the RNP complex. The enzyme activity was completely neutralized by anti-REV DNA polymerase antibody but not by anti-avian myeloblastosis virus DNA polymerase antibody. The DNA product from the endogenous RNA-directed DNA polymerase reaction of the RNP complex hybridized to REV RNA but not to avian leukosis virus RNA. The RNA extracted from the RNP hybridized only to REV-specific complementary DNA synthesized from an endogenous DNA polymerase reaction of purified REV. The size of the RNA in the RNP is 30 to 35S, which represents the subunit size of the genomic RNA. No 60S mature genomic RNA was found within the RNP complex. The significance of finding the endogenous DNA polymerase activity in the viral RNP in infected cells and the maturation process of 60S virion RNA of REV are discussed.     

Characterization of an RNA-directed DNA-polymerase from a cell line derived from a radiation-induced lymphoma in mice.

An RNA-directed DNA polymerase was purified from a cell line derived from a radiation-induced lymphoma in NIH Swiss mice which produced non-infectious type C virus particles. The enzyme was isolated from a high speed particulate fraction which bands at a density of 1.16--1.19 g/ml in a sucrose gradient, and purified by successive chromatography on DEAE-cellulose, phosphocellulose and hydroxyapatite. The purified DNA polymerase has a molecular weight of 68 000, a pH optimum of 7.5, a KCl optimum of 50 mM, and a Mn2+ optimum of 0.25 mM. It prefers (dT)15 . (A)n to (dT)15 . (dA)n as the primer template and transcribes the poly(C) strand of (dG)15 .(C)n and (dG)15 . (OMeC)n. It transcribes heteropolymeric regions of avian myeloblastosis virus 70 S RNA, and is inhibited by antiserum to Rauscher murine leukemia virus DNA polymerase. Comparison of the properties of DNA polymerase purified from radiation-induced lymphoma cells with the DNA polymerase purified from non-defective murine type C RNA tumor viruses shows that the mouse lymphoma enzyme is both biochemically and immunologically related to murine leukemia virus DNA polymerases.     

DNA repair synthesis in human fibroblasts requires DNA polymerase delta

When UV-irradiated cultured diploid human fibroblasts were permeabilized with Brij-58 then separated from soluble material by centrifugation, conservative DNA repair synthesis could be restored by a soluble factor obtained from the supernatant of similarly treated HeLa cells. Extensive purification of this factor yielded a 10.2 S, 220,000-dalton polypeptide with the DNA polymerase and 3'- to 5'-exonuclease activities reported for DNA polymerase delta II (Crute, J. J., Wahl, A. F., and Bambara, R. A. (1986) Biochemistry 25, 26-36). Monoclonal antibody to KB cell DNA polymerase alpha, while binding to HeLa DNA polymerase alpha, did not bind to the HeLa DNA polymerase delta. Moreover, at micromolar concentrations N2-(p-n-butylphenyl)-2'-deoxyguanosine 5'-triphosphate (BuPdGTP) and 2-(p-n-butylanilino)-2'-deoxyadenosine 5'-triphosphate (BuAdATP) were potent inhibitors of DNA polymerase alpha, but did not inhibit the DNA polymerase delta. Neither purified DNA polymerase alpha nor beta could promote repair DNA synthesis in the permeabilized cells. Furthermore, under conditions which inhibited purified DNA polymerase alpha by greater than 90%, neither monoclonal antibodies to DNA polymerase alpha, BuPdGTP, nor BuAdATP was able to inhibit significantly the DNA repair synthesis mediated by the DNA polymerase delta. Thus, it appears that a major portion of DNA repair synthesis induced by UV irradiation might be catalyzed by DNA polymerase delta. When xeroderma pigmentosum human diploid fibroblasts were utilized, DNA repair synthesis dependent upon ultraviolet light could be restored by addition of both T4 endonuclease V and DNA polymerase delta, but not by addition of either one alone. This result suggests that cytosol-depleted permeabilized DNA repair-defective human fibroblasts and HeLa DNA polymerase delta might be exploited to provide a functional assay for purifying active DNA repair factors from DNA repair-proficient cells without a preknowledge of their function.     

DNA Polymerase in the Core of the Human Hepatitis B Virus Candidate

Experiments were done to show that the human hepatitis B antigen (HBAg)-associated DNA polymerase is a component of Dane particles and their antigenically distinct cores prepared by Nonidet P-40 detergent treatment of Dane particles. Before detergent treatment, the DNA polymerase was precipitated by serum containing anti-HB surface antigen (anti-HB(s)) but not with serum containing anti-HB core antigen (anti-HB(c)). After detergent treatment, the enzyme was precipitated by anti-HB(c)- and not by anti-HB(s)-containing serum. Highly purified 16- to 25-nm HBAg particles blocked only the precipitation of DNA polymerase in untreated HBAg preparations. The 110S structure with which the DNA reaction product remains associated in Nonidet P-40-treated preparations was identified as Dane particle core by immunoprecipitation with serum containing anti-HB(c). The DNA polymerase and the radioactive DNA reaction product were used as markers for core in immunoprecipitation tests for anticore. In such assays, 8 of 11 human sera with anti-HB(s) activity and all of 10 sera from chronic HBAg carriers were found to contain anti-HB(c) activity.     

Characterization of DNA polymerase and RNA associated with A-type particles from murine myeloma cells.

The RNA-dependent DNA polymerase present in intracisternal A-type particles from mouse myeloma tumor cells has been studied. This polymerase can use either endogenous A particle RNA or an exogenous synthetic polynucleotide [poly (rA)] as a template. The DNA reaction product is small (4S-10S) and over 90% of it hybridizes to A particle RNA, whereas up to 50% of it hybridizes to murine sarcoma-leukemia virus RNAs. The RNA isolated from purified A particles is generally of low molecular weight (5S-15S) but contains small amount of 70S and 35S components. These results suggest that A-type particles may be related to C-type oncornaviruses.     

Repair of benzo[a]pyrene-initiated DNA damage in human cells requires activation of DNA polymerase alpha

Normal human fibroblasts treated with r-7,t-8-dihydroxy-t-9,10-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene (BPDE) yielded DNA polymerase alpha with elevated levels of activity, incorporated [3H]thymidine as a function of unscheduled DNA synthesis, and exhibited restoration of normal DNA-strand length as a function of unscheduled DNA synthesis. Lipoprotein-deficient fibroblasts treated with BPDE did not show elevated levels of DNA polymerase alpha activity, exhibited minimal [3H]thymidine incorporation, and had fragmented DNA after 24 h of repair in the absence of lipoprotein or phosphatidylinositol supplementation. When DNA polymerase beta activity was inhibited, cells with normal lipoprotein uptake exhibited [3H]thymidine incorporation into BPDE-damaged DNA but did not show an increase in DNA-strand length. DNA polymerase alpha activity and [3H]thymidine incorporation in lipoprotein-deficient fibroblasts increased to normal levels when the cells were permeabilized and low-density lipoproteins or phosphatidylinositol were introduced into the cells. DNA polymerase alpha isolated from normal human fibroblasts, but not from lipoprotein-deficient fibroblasts, showed increased specific activity after the cells were treated with BPDE. When BPDE-treated lipoprotein-deficient fibroblasts were permeabilized and 32P-ATP was introduced into the cells along with lipoproteins, 32P-labeled DNA polymerase alpha with significantly increased specific activity was isolated from the cells. These data suggest that treatment of human fibroblasts with BPDE initiates unscheduled DNA synthesis, as a function of DNA excision repair, which is correlated with increased activity of DNA polymerase alpha, and that increased DNA polymerase alpha activity may be correlated with phosphorylation of the enzyme in a reaction that is stimulated by low-density lipoprotein or by the lipoprotein component, phosphatidylinositol.     

RNA-directed DNA polymerase from particles released by normal goose cells.

Cells from a goose embryo were shown to release particle-associated RNA-directed DNA polymerase and RNase H activities that required the presence of Nonidet P-40 for detection. The particles were not infectious and did not have endogenous DNA synthesis. The goose particle DNA polymerase was related to the DNA polymerase of spleen necrosis virus with respect to size and was inhibited by immunoglobulin G to spleen necrosis virus DNA polymerase. However, goose cells producing DNA polymerase-containing particles did not contain reticuloendotheliosis virus-related nucleotide sequences in their DNA.     

Properties of Intracytoplasmic A Particles Isolated from Oncornavirus-Producing Human Cells

A particles with the diameter of 70 to 80 nm were isolated from the cytoplasm of HEp-2, HeLa, and AO cells producing oncornavirus of Mason-Pfizer-like type. Most of the A particles banded at 1.23 to 1.24 g/ml, whereas 3 to 10% banded at 1.29 g/ml in equilibrium sucrose gradients. They banded at 1.30 g/ml in CsCl gradients suggesting that they contained 8% RNA. Individual A particles sedimented at 200 to 250S in velocity sucrose gradients, but their significant part was found aggregated and sedimented at more than 300S. They were resistant to RNase digestion. A particles possessed polymerase activity which was preferentially activated by Mn(2+) rather than by Mg(2+), the RNA template being 60S RNA. Cross-hybridization with two DNA products and immunoassay showed that A particles and Mason-Pfizer-like oncornavirus produced by the same cells contained neither homological RNA sequences nor common antigens, suggesting that A particles are not intracellular precursors of Mason-Pfizer-like oncornavirus but represent an independent oncornavirus. Hybridization of A particle RNA with excess of cellular DNA revealed about 20 proviral copies per HEp-2 cell genome and no proviral copies in human embryo and placenta cell genomes.     

Characterization of DNA polymerase alpha activity from a mouse DNA temperature-sensitive mutant, strain tsFT20, which shows a defect in DNA polymerase alpha activity at restrictive temperatures

tsFT20 cells derived from mouse FM3A cells are DNA temperature-sensitive mutants, which have heat-labile DNA polymerase alpha activity. When tsFT20 cells were incubated at restrictive temperatures, intracellular levels of DNA polymerase alpha activity changed biphasically, showing an initial fast decrease (phase I) and a subsequent slow decrease (phase II). The activity of DNA polymerase alpha from tsFT20 cells cultured at a permissive temperature (33 degrees C) was greatly increased by the addition of glycerol or ethylene glycol to the reaction mixture, while little increase in enzyme activity was observed at any concentration of glycerol or ethylene glycol tested with the enzyme from the cells cultured at a restrictive temperature (39 degrees C) for 8 h (phase II). The activity of DNA polymerase alpha from wild-type cells was also increased by the addition of glycerol but the increase was much less than that in the tsFT20 cells. An in vitro preincubation experiment showed that DNA polymerase alpha from tsFT20 cells cultured at 33 degrees C very rapidly lost its ability to be stimulated by glycerol. Furthermore, the experiment using the extracts prepared from tsFT20 cells cultured at 39 degrees C for various periods showed that the ability to be stimulated by glycerol decreased with the duration of incubation time at 39 degrees C. DNA polymerase alpha from the revertants, which can grow at 39 degrees C and exhibit a partial recovery in heat stability of DNA polymerase alpha activity, showed an intermediate response to glycerol, between those of DNA polymerase alpha from tsFT20 and from the wild-type cells. Finally, it was observed that the level of enzyme activity that can be stimulated by glycerol correlated well with the DNA synthesizing ability of tsFT20 cells.     

Ribonuclease-Sensitive Deoxyribonucleic Acid Polymerase Activity in Uninfected Rat Cells and Rat Cells Infected with Rous Sarcoma Virus

Rat cells infected with the B77 strain of avian sarcoma virus [R(B77) cells] produced no virus-like particles but contained information for the production of infectious B77 virus. (3)H-labeled deoxyribonucleic acid (DNA) product of the B77 virus endogenous DNA polymerase system was used to determine the relative amounts of B77 virus-specific ribonucleic acid (RNA) in B77 virus-infected chicken and R(B77) cells. R(B77) cells were found to contain much less B77 virus RNA than did B77 virus-infected chicken cells. Ribonuclease-sensitive DNA polymerase activity was present in high-speed pellet fractions from Nonidet extracts of B77 virus-infected rat cells. Similar preparations from some uninfected rat cells contained lesser amounts of a similar ribonuclease-sensitive DNA polymerase activity. The endogenous template for the DNA polymerase activity in high-speed pellet fractions from R(B77) cells was not related to B77 virus RNA or to RNA of a rat C-type virus. The DNA product of the endogenous DNA polymerase in high-speed pellet fractions of R(B77) cells hybridized to a small extent with RNA from the same fraction and to a similar extent with RNA from uninfected rat cells.     

Transfection of metastatic capability with total genomic DNA from human and mouse metastatic tumour cell lines

Abstract. From a large series of experiments involving transfer of high molecular weight total genomic DNA from highly metastatic human and mouse tumour cell lines to other mouse tumour cell lines we have derived a few cell lines with greatly augmented metastatic properties. In one of these experiments the transfected cell line (designated AH8 Test) not only colonised the lungs but also formed secondary tumour colonies in several extrapulmonary sites including the skin, skeletal muscles, bone, liver diaphragm, spleen and heart, There were no qualitative and quantitative effects of this magnitude when we used DNA from several non-metastatic or non-tumourigenic sources.
Secondary transfection of metastatic capability with DNA obtained from a metastasis formed by one of the primary transfectant lines (AH8 Test) has also been accomplished. Concomitant transfer of human DNA through both transfection cycles in this experiment was confirmed by a variety of methods including Southern blot analysis, in situ hybridisation and polymerase chain reaction (PCR) amplification of DNA using primers recognising human-specific Alu repeat sequences.
The findings offer opportunities for the isolation of sequences programming metastatic behaviour and we have cloned and sequenced a fragment of human DNA, which has not been previously characterised, from the transfected cells.     

Inhibition of DNA polymerase alpha from leukemic and normal human cells by partially thiolated human deoxyribonucleic acids

In continuing search for exploitable biochemical differences between cancer and normal cells at the level of DNA replication, leukemic and "normal" hematopoietic cells from four different, established human cell lines were grown in culture flasks, and both the DNA and the DNA polymerase alpha were isolated in each case from the harvested (5-10 g wet weight) cell pellets. The four selected cell lines included a "normal" lymphoblastoid B-cell line (RPMI-1788), a pre-B cell (NALM-6) and a T-cell (MOLT-4) acute lymphoblastic leukemias, and a promyelocytic leukemia (HL-60). The DNA polymerase alpha enzyme of the two B-cell lines (both the leukemic and the "normal") showed the usual sensitivity toward inhibition by aphidicolin, while those from the two other leukemic cell lines were remarkably resistant to the antibiotic. Partially thiolated polycytidylic acid (MPC) strongly inhibited only the DNA polymerase alpha of the "normal" cell line, whereas the corresponding enzymes of all three leukemic cell lines were relatively insensitive to MPC. In contrast, the partially thiolated DNAs derived from the leukemic cell lines more strongly inhibited the DNA polymerase alphas of the leukemic cell lines than that of the "normal" cell line. These results indicate the existence of some structural differences between the DNA polymerase alpha enzymes (as well as between the DNAs) of human cells of different lineage and, particularly, of leukemic vs. "normal" character; such differences could be exploited in the design of selective antitemplates for chemotherapy.