The chick embryo fibroblast cytosolic DNA complex--a possible cell-cell messenger

1. The uptake of [3H]thymidine and [3H]uridine labelled DNA-RNA cytosol complex has been studied in chick embryo fibroblast cells. 2. The complex appears to be cleaved into DNA and RNA containing fragments in the recipient cell nucleus: both then enter the cell cytosol fraction, but the RNA fragment in particular is rapidly degraded. 3. Although [3H]thymidine labelled material present in the nucleus co-extracts with bulk nuclear DNA, caesium gradienting shows little or no evidence that integration of host and imported DNA has occurred. 4. It is suggested that the cytosolic/extruded DNA complex may be a "messenger" DNA, capable of the transfer of regulatory information between cells on a transient basis.     

Further studies on the size and composition of the chick embryo fibroblast cytosolic DNA complex

The chick embryo fibroblast cytosolic DNA complex shows anomalous elution behaviour on agarose gel column chromatography. The indicated molecular size varies between 5 X 10(5) dalton (higher exclusion limit gels) and 1.4 X 10(6) dalton (lower exclusion limit gels). Chromatography on lower exclusion limit gels shows the [3H]thymidine labelled (DNA) complex as a sharp peak, coincident with a peak of [3H]uridine and [3H]lysine labelling and similar pulse labelling patterns for the three precursors but with DNA labelling lagging behind RNA and protein. Both cultured and uncultured cell cytosols show an A260 peak coincident with the [3H]precursor labelling peaks.     

The assembly of the DNA complex present in chick embryo cell cytosol

• 1.1. Chromatography of chick embryo fibrobast cytosol labelled with [³H]thymidine or [³H]uridine precursors has shown the presence of early labelled DNA and RNA eluting at a position corresponding to a relative molecular mass of approximately 1.5–10⁵.
• 2.2. The early DNA-RNA (heteroduplex?) then moves progressively to a higher molecular weight peak, relative molecular mass approximately 10⁶.
• 3.3. The process appears similar in cytosol from cultured cells and from whole aminiotically labelled chick embryo: consequently the cytosolic DNA complex is not an artefact of cell culturing.
• 4.4. The relative contribution of artefactual and specific cytosol-associated DNA material is discussed: it is concluded that while both are present in cytosol as prepared, it is possible to discriminate between specific and artefactual DNA material.

     

In vitro stimulation by tumour cell media of [3H]-thymidine incorporation by mouse spleen lymphocytes

Mouse spleen lymphocyte (SL) cells show a three to four-fold increase in [³H]-thymidine incorporation when incubated in tumour cell media, or in media containing tumour cell cytosol. Agarose gel chromatography of both [³H]-thymidine-labelled tumour cell media and cytosol shows a sharp peak of DNA-associated material eluting at about 60 kDa. This DNA-associated material is imported rapidly and efficiently by SL cells and is recoverable from their cytosol. The stimulating effect on SL cell thymidine incorporation resides primarily, if not exclusively, in this extruded/cytosolic 60 kDa DNA material. Tumour cells incubated in media containing normal or liver, but not tumour, cytosol show a reduced rate of [³H]-thymidine incorporation, indicating competition between normal and tumour associated DNA complexes. The results indicate that such cell-extruded DNA complexes may transmit ‘genetic messages’ to other cells, and are discussed in terms of interactions in the tumour-bearing host. © 1997 John Wiley & Sons, Ltd.     

Further studies on the extrusion of cytosol macromolecules by cultured chick embryo fibroblast cells

The RNA and lipid-associated macromolecules extruded by chick embryo fibroblast cells have been analysed by chromatography. The results taken with those previously obtained suggest that cultured chick embryo fibroblasts excrete a wide range of cytosol macromolecules into the surrounding medium. As previously found with DNA and protein, the chromatographic patterns found with supernatant and cell cytosol preparations were closely similar, suggesting that the media supernatant macromolecules are cytosal derived. A proportion of the RNA and lipid associated material elutes at the same position as the previously observed for DNA and protein on gel exclusion chromatography, suggesting that cell cytosol contains a discrete DNA-RNA-protein lipid complex (size approx 5 X 10(5) dalton) which is extruded by cultured cells.     

The cytosol origin of macromolecules extruded by cultured chick embryo fibroblast cells

The DNA and protein extruded by chick embryo fibroblast cells has been analysed by chromatography. A high proportion of the DNA is in the form of a protein-complex of size around 5 X 10(5) dalton. The patterns of the DNA and protein extruded into the supernatant are closely similar in many respects to those found in the cell cytosol. It is concluded that the macromolecular material extruded by cells in culture is of cytosol origin: a possible function in terms of "information" carriage is proposed.     

ACQUISITION OF CHICK CYTOSOL THYMIDINE KINASE ACTIVITY BY THYMIDINE KINASE-DEFICIENT MOUSE FIBROBLAST CELLS AFTER FUSION WITH CHICK ERYTHROCYTES

Chick-mouse heterokaryons were obtained by UV-Sendai virus-induced fusion of chick erythrocytes with thymidine (dT) kinase-deficient mouse fibroblast [LM(TK^-)] cells. Autoradiographic studies demonstrated that 1 day after fusion, [³H]dT was incorporated into both red blood cell and LM(TK^-) nuclei of 23% of the heterokaryons. Self-fused LM(TK^-) cells failed to incorporate [³H]dT into nuclear DNA. 15 clonal lines of chick-mouse somatic cell hybrids [LM(TK^-)/CRB] were isolated from the heterokaryons by cultivating them in selective hypoxanthine-aminopterin-thymidine-glycine medium. LM(TK^-) and chick erythrocytes exhibited little, if any, cytosol dT kinase activity. In contrast, all 15 LM(TK^-)/CRB lines contained levels of cytosol dT kinase activity comparable to that found in chick embryo cells. Disk polyacrylamide gel electrophoresis and isoelectric focusing analyses demonstrated that the LM(TK^-)/CRB cells contained chick cytosol, but not mouse cytosol dT kinase. The LM(TK^-)/CRB cells also contained mouse mitochondrial, but not chick mitochondrial dT kinase. Hence, the clonal lines were somatic cell hybrids and not LM(TK^-) cell revertants. The experiments demonstrate that chick erythrocyte cytosol dT kinase can be activated in heterokaryons and in hybrid cells, most likely as a result of functions supplied by mouse fibroblast cells.     

The search for the DNA of the chick embryo fibroblast cytosolic complex

1. Conventional DNA extraction procedures have failed to release free DNA from the chick embryo fibroblast cytosolic DNA-RNA complexes. 2. Free DNA has been released only from the smallest cell cytosol DNA fraction, which is not in the native state associated with RNA: it is very small (of the order of 100 bases) and single stranded. 3. However, phenol extraction does separate complex DNA-associated material from the RNA which has invariably been found to accompany it in all but the smallest fraction (see 2 above). 4. The principal factor preventing DNA release appears to be a massive aggregation of partially purified DNA-associated material.     

Stimulation of DNA synthesis,cell multiplication,and ornithine decarboxylase in 3T3 cells by multiplication stimulating activity (MSA)

Multiplication stimulating activity (MSA) has been purified from the conditioned media of rat liver cells in culture by a modification of the procedure of Dulak and Temin. Purified MSA stimulates [³H] thymidine incorporation into DNA in subconfluent, serum starved 3T3 cells. Cell cycle analysis by the flow microfluorometer shows that the [³H] thymidine incorporation data reflects DNA synthesis. MSA also stimulates the multiplication of serum starved subconfluent 3T3 cells. MSA is approximately 10-fold less active in 3T3 cells than in chick embryo fibroblasts in stimulating [³H] thymidine incorporation into DNA. MSA causes a 2–10-fold increase in ornithine decarboxylase (ODC) activity in 3T3 cells and the dose response curve parallels the dose response curve for [³H] thymidine incorporation into DNA. The Km of ODC for ornithine is 0.12 mM. There is a 30% decrease in the activity of ornithine transaminase (OTA) during the time period in which MSA causes an increase in ODC activity. Insulin also stimulates [³H] thymidine incorporation into DNA, cell multiplication and ODC activity over the same concentration range as shown for MSA, however, the extent of stimulation by insulin is less than that observed following MSA addition.     

DNA synthesis in cultured human fibroblasts: Regulation by 3′ : 5′-cyclic amp

The addition of serum to density-inhibited human fibroblast cultures induced a wave of DNA synthesis, measured as [³H] thymidine incorporation into acid-precipitable material, beginning after 8–12 hr and reaching maximum levels at 16–24 hr. Addition of dibutyryl-3′ : 5′-cyclic AMP (DBcAMP) together with serum inhibited [³H] thymidine incorporation by 75–95%. When DBcAMP was added for the first 4 hr of serum stimulation and then removed, the wave of DNA synthesis was not delayed. This suggested that serum could induce DNA synthesis even though cyclic AMP concentrations were maintained at high levels by DBcAMP during this initial period. These results are inconsistent with the hypothesis that it is the immediate transient reduction in 3′ : 5′-cyclic AMP concentration following the addition of serum that triggers DNA synthesis. By contrast, DBcAMP added 8 hr after serum inhibited [³H] thymidine incorporation to the same extent as DBcAMP added at the same time as serum. This indicated that a step essential for DNA synthesis and occurring late in G₁ was inhibited by high concentrations of 3′ : 5′-cyclic AMP.     

Immunologically distinct binding molecules for progesterone and RU38486 in the chick oviduct cytosol

[3H]Progesterone and [3H]RU38486 binding in the chick oviduct cytosol is associated with macromolecules which sediment as 8 S and 4 S moieties, respectively, in molybdate-containing 5-20% sucrose gradients. The [3H]progesterone binding could be displaced by excess progesterone, but not by RU38486. Conversely, the [3H]RU38486 binding was able to compete with RU38486 but not by excess progesterone. A preparation containing antibodies against chick oviduct progesterone receptor recognized only the [3H]progesterone-receptor complex but not the 4 S, [3H]RU38486 binding component of the chick cytosol. In the calf uterus cytosol, [3H]R5020 (a synthetic progestin) and [3H]RU38486 were associated with 8 S molecules and the peaks of radioactivity were displaceable upon preincubation with radionert steroids. In addition, the complexes were recognized by antibodies to chick oviduct progesterone receptor. Our data suggest that in the chick oviduct cytosol, RU38486 does not bind to progesterone receptor, but interacts with an immunologically distinct macromolecule.     

Herpes Simplex Virus Type 2 Functions Expressed During Stimulation of Human Cell DNA Synthesis

Experiments were designed to identify herpes simplex virus type 2 (HSV-2)-specific functions expressed during stimulation of human embryo fibroblast DNA synthesis. Cultures were partially arrested in DNA synthesis by pretreatment with 5-fluorouracil and maintenance in low-serum (0.2%) medium during virus infection. Results showed that continuous [methyl-(3)H]thymidine uptake into cellular DNA was ninefold greater in HSV-2-infected than in mock-infected cultures measured after 24 h of incubation at 42 degrees C. Shifting mock-infected cultures from low- to high-serum (10%) medium also caused some stimulation, but [methyl-(3)H]thymidine uptake was only twofold greater than in cells maintained with low serum. Plating efficiencies of both HSV-2-infected and mock-infected cells at 42 degrees C were essentially the same and ranged from 37 to 76% between zero time and 72 h of incubation. De novo RNA and protein syntheses were continuously required for HSV-2 stimulation of cellular DNA synthesis. HSV-2 infection markedly enhanced transport, phosphorylation, and rate of incorporation of [methyl-(3)H]thymidine into cellular DNA, starting at 3 h and reaching a maximum by 12 h; after 12 h, these processes gradually declined to low levels. In mock-infected cells these processes remained at low levels throughout the observation period. Pretreatment of cells with interferon or addition of arabinofuranosylthymine at the time of virus infection inhibited stimulation caused by HSV-2. 5-Bromodeoxyuridine density-labeled experiments revealed that HSV-2 stimulates predominantly semiconservative DNA replication and some DNA repair. Stimulation of [methyl-(3)H]thymidine into cellular DNA correlated with detection of virus-specific thymidine kinase activity. In conclusion, HSV-2 stimulation of cellular DNA synthesis appeared to involve at least four virus-specific functions: induction of thymidine transport, HSV-2 thymidine kinase activity, semiconservative replication, and repair of cellular DNA.     

Gel filtration of a complex of DNA polymerase and DNA precursor-synthesizing enzymes from a human lymphoblastoid cell line

A multienzyme complex containing at least DNA polymerase (EC 2.7.7.7), thymidine kinase (EC 2.7.1.21), dTMP kinase (EC 2.7.4.9) nucleoside diphosphokinase (EC 2.7.4.6) and thymidylate synthetase was separated from the corresponding free enzymes of DNA precursor synthesis by gel filtration of a gently lysed preparation of HPB-ALL cells (a human lymphoblastoid cell line). The isolated incorporated the distal DNA precursors [3H]thymidine or [3H]dTMP into an added DNA template at rates comparable to those observed using the immediate precursor [3H]dTTP. Measurement of the apparent overall concentrations of [3H]dTTP produced during incorporation of [3H]thymidine and of [3H]dTMP were so low as to suggest that these precursors were channelled into DNA by the operation of a kinetically linked complex of precursor-synthesizing enzymes and of DNA polymerase. The DNA polymerase inhibitor 1-beta-D-arabinofuranosylcytosine triphosphate reduced incorporation of distal precursors into DNA. However [3H]dTTP did not accumulate in the reaction mixture. This suggested that the DNA polymerase regulated the flow of substrates through the complex. The results in this paper constitute direct evidence for the existence of multienzyme complexes of DNA synthesis in mammalian cells.     

Proliferation of cells undergoing chondrogenesis in vitro

Continuous exposure of chicken embryo limb bud mesenchyme cells undergoing chondrogenesis in vitro to [3H] thymidine thymidine [(3H]TdR) revealed that more than 90% of the cells synthesized DNA at least once during 120 h of culture. When cells were exposed to [3H]TdR for 24 h beginning at various times throughout the culture period, the percentage of cells which incorporated [3H]TdR during each period was approximately 92%. However, when the period for incorporation of radioisotope was limited to two hours, the number of cells which incorporated [3H]TdR was found to decline during chondrogenesis in vitro. This decline was coincident with the appearance of extracellular matrix material and occurred in those cells which had, and had not, expressed the cartilage phenotype. We conclude from these studies that (1) practically all of the cells continue to proliferate while chondrogenesis is occurring in vitro, (2) there is an increase in the length of the cell cycle during chondrogenesis in vitro, and (3) withdrawal from the cell cycle is not required for differentiation of mesenchyme into cartilage.     

Involvement of a low molecular weight component(s) in the mechanism of action of the glucocorticoid receptor.

[³H]Dexamethasone-receptor complexes from rat liver cytosol preincubated at 0° bind poorly to DNA-cellulose. However, if the steroid-receptor complex is subjected to gel filtration at 0–4° separating it from the low molecular weight components of cytosol, the steroid-receptor complex becomes “activated” enabling its binding to DNA-cellulose. This activation can be prevented if the gel filtration column is first equilibrated with the low molecular weight components of cytosol. In addition, if adrenalectomized rat liver cytosol, in the absence of exogeneous steroid, is subjected to gel filtration the macromolecular fractions separated from the “small molecules” of that cytosol have much reduced binding activity towards [³H]dexamethasone. These results suggest that rat liver cytosol contains a low molecular weight component(s) which maintains the glucocorticoid receptor in a conformational state that allows the binding of dexamethasone. Furthermore, this component must be removed from the steroid-receptor complex before binding to DNA can occur.     

THE EFFECTS OF 5-BROMODEOXYURIDINE ON YOLK SAC ERYTHROPOIESIS IN THE CHICK EMBRYO

The effects of the thymidine analog, 5-bromodeoxyuridine (BUdR), on the formation of red cells in the yolk sac of the chick embryo were examined. The prospective area opaca vasculosa from a definitive primitive streak embryo was excised, disaggregated, and deposited into a cell clump, and the cell clump was placed in organ culture. Hemoglobin synthesis is detectable after about 16 hr in culture. The formation of erythropoietic foci and incorporation of ⁵⁵Fe into heme were used to measure the extent of erythropoiesis. Exposure to 40 µg/ml of BUdR within 6 hr after explantation almost completely eliminated red cell formation; subsequent transfer to thymidine medium showed that the inhibition was reversible, and there was no histological evidence of analog toxicity. Between 6 and 12 hr after initiation of organ culture, the tissue became completely refractory to BUdR. DNA synthesis, as monitored by thymidine-³H and BUdR-³H pulses, was extensive both during and after the period of BUdR sensitivity. Hence, during both BUdR sensitive and insensitive periods the analog was incorporated into DNA of cells which had not yet synthesized hemoglobin. It is proposed that between 6 and 12 hr a crucial regulatory event for terminal differentiation is perturbed by the presence of BUdR in the chromosomes.     

Enzymatic determination of nonrandom incorporation of 5-bromodeoxyuridine in rat DNA.

Secondary cultures of normal rat embryo cells were synchronized by a double thymidine block and pulsed with 10(-7) M 5-[3H]bromodeoxyuridine (BrdUrd) OR 10(-7) M[3H]thymidine during an entire S phase (7.5 h). To examine the pattern of [3H]thymidine, DNA was immediately extracted and purified at the completion of the S phase, CsCl density gradient centrifugation revealed that substitution for thymine by bromouracil was less than 7%. Single-strand specific nucleases obtained from Aspergillus oryzae and Neurospora crassa were allowed to react with native and partially depurinated (24-29%) [3H]BrdUrd-labeled rat DNA samples, and the products were assayed by hydroxylapatite column chromatography. Approximately 4-6% of the native, nondepurinated rat DNA was hydrolyzed by both nucleases. However, 24-28% of the partially depurinated, [3H] thymidine-labeled rat DNA was hydrolyzed by both enzymes as determined by loss of mass as well as radioactivity. Whereas comparable levels of depurinated, [3H]BrdUrd-labeled DNA were physically hydrolyzed by both nucleases, nearly 65% of the radioactivity was not recovered. Native, as well as depurinated, enzyme-treated DNA samples were sequentially and preparatively reassociated into highly repetitive, middle repetitive, and nonrepetitive nucleotide sequence components. The absolute and relative specific activities of each subfraction of native [3H]thymidine-labeled DNA were comparable. [3H]BrdUrd was differentially concentrated in the middle repetitive sequences as compared to other reiteration frequency types. When depurinated, nuclease-treated DNA samples were similarly fractionated, [3H]thymine moieties were uniformly distributed thoughout all sequences. However, a differential loss of [3H]BrdUrd moieties was detected predominantly from the middle repetitive nucleotide fraction. Melting profiles of the renatured DNA samples were characteristic of each respective DNA subfraction regardless of isotopic precursor. These results suggest that [3H]BrdUrd may be differentially incorporated into A + T rich clusters of rat DNA, especially in the moderately repeated chromosomal elements.     

Differential effects of growth factors on [3H]thymidine incorporation and [125I]iodine uptake in FRTL-5 rat thyroid cells

We studied the effect of several growth factors on DNA synthesis and function of FRTL-5 rat thyroid cells by simultaneous measurement of [3H]thymidine incorporation and [125I]iodide uptake. Endothelial cell growth factor, fibroblast growth factor, platelet-derived growth factor, and insulin-like growth factor I stimulated thymidine incorporation in a dose-dependent manner without the parallel increase of [125I]iodide uptake. These growth factors had an additive effect with thyroid-stimulating hormone (TSH) on thymidine incorporation, but they inhibited TSH-stimulated iodide uptake. Bombesin stimulated thymidine incorporation and inhibited TSH-stimulated iodide uptake; epidermal growth factor and gastrin-releasing peptide 10 had neither effect. None of the growth factors studied affected iodide uptake in the absence of TSH. Of the growth factors tested, endothelial cell growth factor, fibroblast growth factor, insulin-like growth factor bombesin, and platelet-derived growth factor all share similar differential effects on FRTL-5 cells: stimulation of DNA synthesis, potentiation of the effects of TSH on DNA synthesis, and attenuation of the effects of TSH on cell function. The data suggest that these growth factors may play important roles in regulation of thyroid function.     

Interferon inhibition of thymidine incorporation into DNA through effects on thymidine transport and uptake

Replenishment of medium after 72 hr of growth of HeLa-S3 cells in dense suspension cultures increased [³H]-thymidine uptake into cells and incorporation into DNA, with the levels reaching a peak ～ 12 hr following medium change; β interferon inhibits the enhanced uptake of [³H]-thymidine and labeling of DNA in a dose-dependent manner. Some reduction in these processes is observed at a concentration as low as 1 u/ml, and ～ 75% inhibition at 640 u/ml. Kinetic analysis has revealed that the rate of labeling of the acid-soluble pool with [³H]-thymidine, measured either at 22°C, or 37°C, is reduced in interferon-treated (640 u/ml, 24 hr) HeLa-S3 cells. At 22°C, the initial rate of thymidine transport at a high (500 μM) thymidine concentration, determined within the first 30 sec of [³H]-thymidine addition was depressed by 44% in interferon-treated HeLa cells. At 37°C, labeled precursors accumulate in acid-soluble material for ～ 8 min after the addition of [³H]-thymidine, after which an apparent equilibrium level is attained. At this temperature, the rate of thymidine uptake and the apparent equilibrium level attained were depressed by 70% in interferon-treated HeLa cells. The reduced incorporation of [³H]-thymidine into DNA in interferon-treated HeLa-S3 cells can be largely explained by interferon inhibition of thymidine transport and phosphorylation.     

The mitotic history and radiosensitivity of developing oligodendrocytes in vitro

By use of pulse-chase exposure of dissociated cells of rat fetal spinal cord or brain to [3H]thymidine (TdR) and unlabeled TdR it has been shown that oligodendroglial precursors which do not express galactocerebroside (GalC) divide first and later differentiate to express GalC. The rate of proliferation of more mature GalC+ oligodendrocytes is considerably lower than that of their GalC- precursors. It has been found that oligodendrocyte precursor cells are extremely sensitive to [3H]TdR irradiation. Exposure to as little as 0.03 microCi/ml for 24 hr proved to be harmful, particularly during a critical period before birth. This critical period corresponded to the peak of division of oligodendrocyte precursor cells.