DNA replication in mammalian cells after the action of physical, chemical or biological factors. VI. The recovery of DNA synthesis in a culture of irradiated cells

The kinetics of DNA synthesis restoration in cultured HeLa cells and in L-929 mouse fibroblasts irradiated by gamma-rays of 60Co with a dose of 10 Gy was studied. Early after irradiation the rate of DNA synthesis in HeLa cells measured with 3H-thymidine incorporation was seen to decrease. Two hours later the incorporation starts to increase to reach the control level 4 hours after irradiation and then becomes even higher than this level. The distribution of cells among phases of the cell cycle measured with flow cytometry undergoes changes. 4-6 hours after irradiation part of S-phase cells increased contributing presumably to the elevating of 3H-thymidine incorporation observed at this time. The restoration of the incorporation was suppressed by inhibitors of protein and RNA synthesis--cycloheximide and actinomycin D. It is suggested that the processes of restoration of DNA synthesis in irradiated cells can be of inducible nature. In irradiated HeLa and L-929 cells the restoration of DNA synthesis is resistant to novobiocin, an inhibitor of DNA replication.     

Immune response in mice exposed to low-dose X-rays

The present paper was conducted to evaluate the immunological effect of low dose gamma-irradiation. The splenocytes of mice (C57BL/6N), 24 hours after the irradiation from 0.087 to 0.87 Gy, were incubated with mitogens of T or B lymphocytes, allo-antigen (splenic cells of BALB/c mice) (MLC) or sheep red blood cells (SRBC) 10 days after immunization with the SRBC in vivo, and then their incorporations of 3H-thymidine were measured. On the other hand, this incorporation in the presence of T-cell growth factor (IL-2) in vitro and a drug of AET in vivo was investigated to examine their radioprotective effects. The dose-response relation, i.e. decrease of 3H-thymidine incorporation in function of increase of the irradiation dose, was demonstrated in these immunological examinations except at the dose of 0.087 Gy. More, their incorporation was remarkably promoted by the administration of the T cell growth factor and the drug, therefore, these substances represent the radioprotective effect.     

Investigation of microvessel density after irradiation

It is believed that malignant cell populations need the development of microvessels to grow and metastasize. The aim of our investigation was to find out whether gamma irradiation can affect proliferation of endothelial cells and thus can affect microvessel density in vivo. We used fertilized chicken eggs. The vascularized part of the yolk sac membrane (area vasculosa) of the eggs received single doses of 2 to 10 Gy. Forty-eight hours after irradiation, the area vasculosa was photographed in vivo, and prints of known magnification were evaluated to determine the density of the blood vessels. Microvessel count is the well-established marker used to determine vascular density. In addition, the proliferative activity of endothelial cells in the yolk sac membrane was determined by estimating the expression of proliferating cell nuclear antigen (PCNA). PCNA immunostaining was assessed immunohistochemically. After a single dose of 10 Gy, a statistically significant increase in vascular density was found compared to values determined at 0, 2, 4 and 8 Gy (P < 0.05). Twenty-four hours after 10 Gy irradiation, 44.8% (mean) of the endothelial cells were PCNA-positive. This was significantly higher (P < 0.05) compared to the results 24 h after 4.0 Gy (22.7%) and compared to control (19.4%). Twenty-four hours later, i.e. 48 h after irradiation with 10 Gy, the endothelial cells also showed a significantly (P < 0.05) higher PCNA positivity with a mean of 34.1% compared to the nonirradiated area vasculosa (18.1%) and compared to the results after 4.0 Gy irradiation (12.0%). The prerequisite for blood vessel formation is the proliferation of endothelial cells. Thus a single-dose irradiation with 10 Gy induces endothelial cell proliferation and subsequent neovascularization in the area vasculosa of the fertilized egg.     

Culture kinetics of glycolytic enzyme induction, glucose utilization, and thymidine incorporation of extended-exposure phytohemagglutinin-stimulated human lymphocytes

Glycolytic enzyme activity is significantly (P less than 0.05) induced between 24 and 48 hours of incubation in phytohemagglutinin-stimulated human lymphocytes. Nonstimulated cultured cells do not show this induction although these cells have an approximate daily doubling of thymidine incorporation. Maximal glycolytic enzyme activity is reached between 96 and 120 hours of culture in stimulated cells (3.5-fold increase) and maintained until at least 168 hours. There is no significant induction of the hexosemonophosphate shunt or the TCA cycle during seven-day transformation. Induction of glucose utilization becomes significantly (P less than 0.05) greater in stimulated as compared to nonstimulated cultures between 48 and 72 hours of culture and is significantly elevated for at least an additional 96 hours. There is a 17% increase in total protein in the stimulated cells after 24 hours of culture and higher levels of protein content are then maintained over the control. Thymidine incorporation is significantly greater in stimulated cells from 24-144 hours of culture but is not significantly different from the nonstimulated cells at 168 hours (P = 0.98) although glycolytic enzyme activity remains elevated in the stimulated cells. There is a greater enzyme induction of the latter phase of glycolysis during transformation and this phenomenon continues in extended cultures. Increases in glycolytic enzyme activity during mitogenesis appear to be an intrinsic phenomenon independent of cell proliferation and glucose transport. The mitogen-induced increase in the activity of the glycolytic enzymes accompanies blastogenesis and the sustained elevated activity of these enzymes to be related to the high metabolic rate of transformed cells.     

Human epidermal growth factor and the proliferation of human fibroblasts

The effect of human epidermal growth factor (hEGF), a 5,400 molecular weight polypeptide isolated from human urine, on the growth of human foreskin fibroblasts (HF cells) was studied by measuring cell numbers and the incorporation of labeled thymidine. The addition of hEGF to HF cells growing in a medium containing 10% calf serum resulted in a 4-fold increase in the final density. The presence of hEGF also promoted the growth of HF cells in media containing either 1% calf serum or 10% gamma globulin-free serum. The addition of hEGF to quiescent confluent monolayers of HF cells, maintained in a medium with 1% calf serum for 48 hours, resulted in a 10- to 20-fold increase in the amount of ³H-thymidine incorporation after 20–24 hours. The stimulation of thymidine incorporation was maximal at an hEGF concentration of 2 ng/ml, was dependent on the presence of serum, and was enhanced by the addition of ascorbic acid. In confluent cultures of HF cells, subject to density dependent inhibition of growth, hEGF was able to stimulate DNA synthesis more effectively than fresh calf serum. Human EGF stimulated DNA synthesis in quiescent cultures, however, regardless of cell density. The addition of rabbit anti-hEGF inhibited all effects of this growth factor on HF cells.     

Prostacyclin synthesis in irradiated endothelial cells cultured from bovine aorta

Confluent monolayers of bovine aortic endothelial cells were examined 2-72 h after exposure to 0.5-5.0 Gy of 60Co gamma-rays. Accumulation of prostacyclin [PGI2, measured as 6-ketoprostaglandin F1 alpha (6-keto-PGF1 alpha)] in the culture media and PGI2 production stimulated by exogenous arachidonate were correlated with cell detachment and release of lactate dehydrogenase (LDH) activity. Platelet adherence to irradiated and control monolayers also was studied. There were simultaneous time- and dose-dependent increases in cell detachment and in the titers of 6-keto-PGF1 alpha and LDH activity in the culture medium. These changes were evident between 4 and 8 h after 5 Gy or at 24 h after 0.5 Gy. Four hours after 5 Gy, both adherent and detached endothelial cells showed a twofold increase in PGI2 production during a 15-min incubation with arachidonate (10 microM). However, by 72 h this increase was less significant. The accumulation of 6-keto-PGF1 alpha appeared to be related to cell destruction, but radiation also stimulated PGI2 synthesis independent of cell detachment. There was an increased platelet interaction with irradiated monolayers, as a result of platelet adherence to subendothelial matrix exposed after cell detachment. However, irradiation did not alter the nonadherent property of the endothelial cell surface toward platelets.     

Effects of Sulfite on Metabolism in Isolated Mesophyll Cells from Papaver somniferum

Exposure (30 minutes) of leaf-free mesophyll cells from the C-3 plant, Papaver somniferum, to concentrations of sulfite (SO₂ + HSO₃⁻ + SO₃⁻) up to 20 millimolar stimulated the rate of CO₂ incorporation as much as 30%. The sulfite rapidly affects the metabolism of newly incorporated CO₂. Ammonia incorporation into glutamine and subsequent transamination reactions were stimulated during the short term exposure periods while glycolate metabolism apparently was inhibited by bisulfite at two points in the pathway. The results further indicate that glycolate is the major precursor of glycine in these cells. Prolonged periods of exposure (24 hours) to sulfite had somewhat different effects on carbon metabolism: the high concentrations (10 to 20 millimolar) severely inhibited all aspects of cellular metabolism while lower concentrations (1 millimolar) appeared to inhibit ammonia incorporation but stimulated synthesis of sucrose and starch.     

Gastrin induction of mRNA expression in rat colonic epithelium in vitro

A newly developed system of isolated rat colonic epithelial cells was utilized for a comprehensive study of protein synthesis influenced by gastrin. We found that synthetic human gastrin (0.01-100 nM) increased the incorporation of [35S]methionine into proteins within 2 hours. Peak incorporation was observed with 10 nM gastrin to more than two-fold above maintenance levels. Actinomycin-D (10 micrograms/ml) inhibited the stimulated increases in total protein synthesis indicating that the peptide's trophic effect was mediated by the synthesis of new mRNA species. The effect of gastrin was comparably stronger than the one induced by the mitogen bombesin (1 nM). However, bombesin, a neuromodulator of gastrin release, did not produce an additive effect beyond that of gastrin on total protein synthesis. Gastrin stimulated the synthesis of many polypeptides resolved on two-dimensional polyacrylamide gel, an indicator of gastrin's influence on the expression of various mRNA species. Some of these polypeptides may be used as markers in investigating colonic epithelial response to gastrin.     

白细胞介素对大鼠离体垂体前叶细胞增殖的影响

本工作采用大鼠垂体前叶（ＡＰ）细胞原代培养方法,以３ＨＴｄＲ掺入率反映细胞增殖水平,研究了ＩＬ１和ＩＬ６对ＡＰ细胞增殖的影响。结果表明：（１）ＩＬ１（１－１００ｎｇ／ｍｌ）促进雄性大鼠和雌性大鼠ＡＰ细胞的增殖。（２）低浓度的ＩＬ６（０．１ｎｇ／ｍｌ）抑制雄性大鼠的ＡＰ细胞的增殖,而较高浓度的ＩＬ６（１－１０ｎｇ／ｍｌ）则表现为刺激作用。（３）ＩＬ６（０．１－１０ｎｇ／ｍｌ）促进雌性大鼠ＡＰ细胞的增殖。上述结果说明ＩＬ１和ＩＬ６除直接调控ＡＰ细胞的分泌外,也参与调节ＡＰ细胞增殖活动。     

Change in the initiation of DNA synthesis on the nuclear matrix and its DNA-protein composition in gamma-irradiated hepatoma cells

It was shown that gamma-irradiation of Zajdela hepatoma cells (10 Gy) induces inhibition of DNA synthesis initiation at a nuclear matrix and a change in its DNA-protein content. Irradiation of hepatoma cells with 10 and 50 Gy decreases incorporation of newly synthesized proteins in the firmly bound DNA-protein complexes of nuclear matrix. After 60-120 min postirradiation incubation of cells at 37 degrees C DNA-protein content of the nuclear matrix and its firmly bound DNA-protein complexes are restored. However the rate of DNA synthesis initiation being below the control level.     

PHA刺激对淋巴细胞修复DNA损伤的影响

本文报道PHA刺激对淋巴细胞DNA修复的影响的实验结果。以254nm波长的UV照射细胞(30J/m~2)引起DNA损伤,以[~3H]-TdR掺入实验测定非程序DNA合成,用超微量法测定细胞的NAD~+含量,并以[~(35)S]-蛋氨酸掺入,聚丙烯酰胺凝胶电泳及放射自显影术测定蛋白质生物合成,其结果如下: (1)在被PHA转化的淋巴细胞内非程序DNA合成,随PHA刺激的时间加长而增高;PHA处理淋巴细胞42小时,合成的速率约增加4倍;(2)在转化的淋巴细胞内,非程序DNA合成及程序DNA合成都被N-乙基马来酰亚胺(一种DNA聚合酶α的抑制剂)抑制,表明在DNA修复过程中DNA聚合酶α可代替DNA聚合酶β发挥作用; (3)UV照射后,被PHA刺激的淋巴细胞内NAD~+含量大约减少43.2％,而对照淋巴细胞内NAD~+的含量只减少25％,似乎说明PHA刺激能促进淋巴细胞内的P-ADP-核糖化作用;(4)在受PHA刺激72小时的淋巴细胞内有多种蛋白质合成,这些细胞在UV照射后以含10μg/ml嘌呤霉素的培养基培养,则非程序DNA合成被明显抑制(P<0.01),这提示DNA修复是一需要蛋白质合成的过程。此外,在受UV照射后10-45小时的淋巴细胞内,诱导产生一种分子量大约34000道尔顿的蛋白质。 上述结果表明,当PHA使淋巴细胞从静止状态转化为增殖状态时,有多种酶被诱导。由于这些酶,如DNA聚合酶α及P-ADP-核糖聚合     

Comparison of effects of epidermal and insulin-like growth factors, gastrin releasing peptide and retinoic acid on fetal lung cell growth and maturation in vitro.

The role in cell multiplication and maturation of several factors present in the late fetal lung was explored on isolated fetal rat pulmonary fibroblasts and alveolar epithelial type II cells cultivated in serum-free medium. The low degree of reciprocal contamination of each cell population was assessed by immunocytochemistry. Epidermal Growth Factor (EGF) stimulated thymidine incorporation and DNA accumulation in both cell types. In type II cells, it increased labeled-choline incorporation into surfactant phosphatidylcholine (PC), consistently with previous data obtained with lung explant cultures, but not into non-surfactant PC. Insulin-like growth factor (IGF)-I slightly stimulated DNA accumulation in fibroblasts although it did not significantly stimulate thymidine incorporation, contrary to IGF-II which presented a dose-dependent stimulating activity of thymidine incorporation. Neither IGF-I nor IGF-II stimulated type II cell growth. IGFs thus appear to primarily control the growth of lung mesenchyme. In type II cells, they stimulated the most non-surfactant PC biosynthesis. Gastrin releasing peptide (GRP) which was recently reported to promote fetal lung growth in vivo and to stimulate surfactant biosynthesis in lung organ culture revealed as a growth factor for type II cells only, at concentrations below 10(-9) M. At concentration 10(-8) M, although it did not affect DNA synthesis, GRP tended to increase surfactant and non-surfactant-PC biosynthesis. Retinoic acid inhibited thymidine incorporation into type II cells on a dose-dependent manner but nevertheless enhanced surfactant-PC biosynthesis to a similar extent as EGF. It is suggested that retinoic acid may represent a differentiation or maturation factor for the alveolar epithelium.     

Action of hyperthermia on the early radiation reactions of HeLa cells in a stationary growth stage

A study was made of the influence of hyperthermia (42 degrees C, 30 min) after irradiation with a dose of 6 Gy on the permeability of cell membranes and the rate of incorporation of 3H-thymidine into DNA of HeLa cells at the stationary stage of the culture growth. Hyperthermia was shown to enhance the damaging effect of radiation on cells at this growth stage. It is suggested that this effect is connected with the impaired development of a series of early (during the first minutes and hours) adaptive reactions of HeLa cells, at the stationary stage of growth, to the effect of radiation.     

Comparison of effects of epidermal and insulin-like growth factors,gastrin releasing peptide and retinoic acid on fetal lung cell growth and maturation in vitro

The role in cell multiplication and maturation of several factors present in the late fetal lung was explored on isolated fetal rat pulmonary fibroblasts and alveolar epithelial type II cells cultivated in serum-free medium. The low degree of reciprocal contamination of each cell population was assessed by immunocytochemistry. Epidermal Growth Factor (EGF) stimulated thymidine incorporation and DNA accumulation in both cell types. In type II cells, it increased labeled-choline incorporation into surfactant phosphatidylcholine (PC), consistently with previous data obtained with lung explant cultures, but not into non-surfactant PC. Insulin-like growth factor (IGF)-I slightly stimulated DNA accumulation in fibroblasts although it did not significantly stimulate thymidine incorporation, contrary to IGF-II which presented a dose-dependent stimulating activity of thymidine incorporation. Neither IGF-I nor IGF-II stimulated type II cell growth. IGFs thus appear to primarily control the growth of lung mesenchyme. In type II cells, they stimulated the most non-surfactant PC biosynthesis. Gastrin releasing peptide (GRP) which was recently reported to promote fetal lung growth in vivo and to stimulate surfactant biosynthesis in lung organ culture revealed as a growth factor for type II cells only, at concentrations below 10 ⁻⁹ M. At concentration 10 ⁻⁸ M, although it did not affect DNA synthesis, GRP tended to increase surfactant and non-surfactant-PC biosynthesis. Retinoic acid inhibited thymidine incorporation into type II cells on a dose-dependent manner but nevertheless enhanced surfactant-PC biosynthesis to a similar extent as EGF. It is suggested that retinoic acid may represent a differentiation or maturation factor for the alveolar epithelium.     

Unstable Chromosome Aberrations Do Not Accumulate in Normal Human Fibroblast after Fractionated X-Irradiation

We determined the frequencies of dicentric chromosomes per cell in non-dividing confluent normal human fibroblasts (MRC-5) irradiated with a single 1 Gy dose or a fractionated 1 Gy dose (10X0.1 Gy, 5X0.2 Gy, and 2X0.5 Gy). The interval between fractions was between 1 min to 1440 min. After the completion of X-irradiation, the cells were incubated for 24 hours before re-plating at a low density. Then, demecolcine was administrated at 6 hours, and the first mitotic cells were collected for 42 hours. Our study demonstrated that frequencies of dicentric chromosomes in cells irradiated with a 1 Gy dose at different fractions were significantly reduced if the fraction interval was increased from 1 min to 5 min (p<0.05, χ²-test). Further increasing the fraction interval from 5 up to 1440 min did not significantly affect the frequency of dicentric chromosomes. Since misrejoining of two independent chromosome breaks introduced in close proximity gives rise to dicentric chromosome, our results indicated that such circumstances might be quite infrequent in cells exposed to fractionated X-irradiation with prolonged fraction intervals. Our findings should contribute to improve current estimation of cancer risk from chronic low-dose-rate exposure, or intermittent exposure of low-dose radiation by medical exposure.     

Modulation of ionizing radiation-induced apoptosis and cell cycle arrest by all-trans retinoic acid in promyelocytic leukemia cells (HL-60)

Acute promyelocytic leukemia is characterized by a block of myeloid differentiation. The incubation of cells with 1 micromol/l all-trans retinoic acid (ATRA) for 72 h induced differentiation of HL-60 cells and increased the number of CD11b positive cells. Morphological and functional changes were accompanied by a loss of proliferative capacity. Differentiation caused by preincubation of leukemic cells HL-60 with ATRA is accompanied by loss of clonogenicity (control cells: 870 colonies/10(3) cells, cells preincubated with ATRA: 150 colonies/10(3) cells). D0 for undifferentiated cells was 2.35 Gy, for ATRA differentiated cells 2.46 Gy. Statistical comparison of clonogenity curves indicated that in the whole range 0.5-10 Gy the curves are not significantly different, however, in the range 0.5-3 Gy ATRA differentiated cells were significantly more radioresistant than non-differentiated cells. When HL-60 cells preincubated with 1 micromol/l ATRA were irradiated by a sublethal dose of 6 Gy, more marked increase of apoptotic cells number was observed 24 h after irradiation and the surviving cells were mainly in the G1 phase of the cell cycle, while only irradiated cells were accumulated in G(2) phase. Our results imply that preincubation of cells with ATRA accelerates apoptosis occurrence (24 h) after irradiation by high sublethal dose of 6 Gy. Forty-eight hours after 6 Gy irradiation, late apoptotic cells were found in the group of ATRA pretreated cells, as determined by APO2.7 positivity. This test showed an increased effect (considering cell death induction) in comparison to ATRA or irradiation itself.     

The Use of Glucosamine and Actinomycin D in Radioactive Labeling of RNA in Cells in Culture

Pretreatment of confluent cultures of mouse L cells or of well-differentiated nervous system cells in primary cultures with 20–120 mM glucosamine resulted in a stimulation of the uptake of tritiated uridine, but not of adenosine. A marked stimulation of the incorporation of radioactive uridine into acid-precipitable macromolecules was also obtained, while adenosine incorporation was unchanged. Cultures of L cells in log phase of growth were similarly affected by glucosamine pretreatment. Uridine and cytidine uptakes were stimulated by 50%. Tritiated uridine incorporation was stimulated in a biphasic manner, with maximal stimulation (115%) after 15–60 min of labeling and at later times an inhibition of incorporation. The stimulation of cytidine incorporation paralleled the stimulation of its uptake. The data indicate that there is: a) a glucosamine-induced stimulation of pyrimidine nucleoside uptake, b) a marked stimulation of tritiated uridine incorporation into RNA due to depletion of the cellular pools of unlabeled uridine nucleotides during glucosamine pre-treatment, and c) a decrease in the rate of RNA synthesis after several hours of glucosamine treatment, probably related to diminished intracellular supplies of uridine nucleotides. In the presence of glucosamine, high concentrations of actinomycin D could be used to increase nuclear retention of pulse-labeled nascent RNA. Cordycepin treatment did not result in similar retention of RNA. These techniques will be useful in autoradiographic and biochemical studies of nuclear RNA synthesis.     

Heat shock protein 70 enhanced deoxyribonucleic acid base excision repair in human leukemic cells after ionizing radiation

Base excision repair (BER) of DNA damage in irradiated THP1 human leukemic cells was stimulated by pretreating the cells with exogenous recombinant Hsp70. The treatment of THP1 cells with recombinant Hsp70 in cell culture promoted repair by reducing the frequency of apurinic, apyrimidinic (AP) sites in DNA before and after 1.3 Gy of radiation. However, by 30 minutes after 2.6 Gy, accelerated repair of abasic sites supervened, which may contribute to the loss of the very-low-dose cell hypersensitivity seen in clonogenic studies of other laboratories. After irradiation with 2.6 Gy, the crucial initial glycosylase step was markedly incomplete when cells had been transfected 24 hours before with a small interfering RNA (siRNA) designed to inhibit synthesis of Hsp70. In confirmation, lysates from irradiated siRNA-treated cells after 2.6 Gy were deficient in uracil glycosylase activity (UDG). Transfection with a scrambled RNA of the same size did not interfere with the glycosylase step, ie, the prompt conversion of damaged pyrimidine sites to abasic sites as well as the subsequent repair of those sites. BER measured by reduction of DNA AP sites before and after low-dose radiation was also deficient in THP1 cells that had been transfected with the siRNA designed to inhibit synthesis of Hsp70. These results implicate BER and the participation of Hsp70 in the repair of DNA in human leukemic cells with the doses of ionizing radiation used in clinical regimens.     

Activation of the production of cytotoxic factors by mouse spleen cells exposed to the combined action of lipopolysaccharide and muramyl dipeptide in vitro

Lipopolysaccharide (LPS) and muramyl dipeptide (MDP) stimulated murine splenocytes in vitro to produce cytotoxic factors (CF) that killed target cells L-929. This effect was synergic at LPS dose of 10 ng/ml and MDP dose of 10 micrograms/ml. CF production started 2 hours after spleen cell activation and was maximum in 6 hours. CF were produced by macrophages as well as by lymphocytes stimulated by LPS, MDP or their combination. However, synergic effect of immunomodulators was registered only if nonfractionated spleen cells were stimulated during 24 hours. Lymphocytes depleted on T cells did not lack the ability to generate CF upon activation. In addition, LPS and MDP activated synergically the production of interleukin-I by spleen cells in vitro.     

Early changes in the synthesis of acidic nuclear proteins in human diploid fibroblasts stimulated to synthesize DNA by changing the medium

When resting WI-38 cells in a confluent monolayer were stimulated to proliferate by changing the medium, the incorporation of leucine-³H into nuclear acidic proteins was promptly stimulated, although its incorporation into total cellular proteins was unchanged or even decreased. Three fractions, all acidic by aminoacid analysis, were extracted from the nuclei: (1) ribonucleoproteins (RNP); (2) a fraction extractable with 0.15 M NaC1; and (3) a fraction tenaciously bound to the insoluble residue (residual fraction). A first increase occurred between one and three hours after stimulation in all three fractions. The synthesis of NaCl-soluble proteins then returned to control levels, while the synthesis of residual and RNP proteins remained high between 6 and 12 hours and increased even further at 18 hours, the peak of DNA synthesis. Pulse chase experiments indicated that the proteins synthesized in the first hour after stimulation have a turnover time of less than four hours, while the same fractions in non-proliferating cells were stable for at least 12 hours. 2-mercapto-1-(β-4-pyridethyl) benzimidazole, when added at the same time as the fresh medium, produced an inhibition of the increase in nuclear protein synthesis at one hour, but, if added at five hours after stimulation, it did not inhibit the increase in nuclear protein synthesis occurring at six hours. Actinomycin D (0.01 μg/ml) inhibited both the stimulation of DNA synthesis and the increases in nuclear acidic protein synthesis occurring at one and six hours after stimulation. These results seem to indicate that the serum factors responsible for the stimulation of WI-38 cells, after binding to cells, induce an early synthesis of acidic nuclear proteins which is sensitive to very low doses of actinomycin D. In turn, the newly synthesized proteins could in some way activate in the nuclei the genes that control DNA synthesis and cell division.