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.     

Effect of x-irradiation on growth and the expression of parathyroid hormone-related peptide and Indian hedgehog in the tibial growth plate of the rat

AIM: To study the effect of irradiation on the longitudinal growth and the expression of parathyroid hormone-related peptide (PTHrP) and Indian hedgehog (IHh) in tibial growth plates of rats. METHODS: At 3 weeks of age, 30 male rats received a single fraction of irradiation (8 Gy) to their right hind limb, and small groups of animals were sacrificed 1, 2, 3, 5, 7, 10, 15, and 26 weeks after irradiation. Weight and length of both irradiated and nonirradiated tibiae were measured, and sections of the tibiae were stained with HE. PTHrP and IHh were visualized using immunohistochemical techniques. RESULTS: Radiation resulted in persistent growth delay of the irradiated tibiae, with a difference in length of more than 10% between the irradiated and the nonirradiated tibiae 15 weeks or more after irradiation. The growth plate architecture was disturbed, and the expression of both PTHrP and IHh was decreased in the irradiated tibiae. CONCLUSION: As PTHrP and IHh are key regulators of both the pace and the synchronization of the differentiation of growth plate chondrocytes, the reduced expression of PTHrP and IHh may contribute to the changes found after irradiation.     

Effect of prostaglandins on protein, RNA, DNA and collagen synthesis in experimental wounds.

The effect of exogenous prostaglandins E1, E2 and F2alpha (PGE1, PGE2 and PGF2alpha) on 3H-leucine, 3H-uridine, 3H-thymidine and 3H-proline incorporation in experimental cutaneous wounds has been studied in rats. Prostaglandins E1 and E2 markedly stimulate the incorporation of these tritiated precursors, into protein, RNA, DNA and collagen synthesis, whereas F2 inhibits it. All tested prostaglandins exhibit their maximum effect within the first hours following administration. Most active is PGE1. These observations indicate that application of prostaglandins significantly stimulate incorporation with protein, RNA, DNA and collagen synthesis in the skin of wounded rats and thus, may play a role in epidermal cell growth and division as well as in scar-forming tissue.     

Reaction of non-proliferating tumor cells to irradiation

At early times after irradiation (5 Gy) of HeLa cells at the stationary phase of growth the proliferative pool grows, as compared with the cell culture exposed at the logarithmic phase, and incorporation of 3H-thymidine and 14C-uridine is intensified.     

The effects of pulsed magnetic fields on chick embryo cartilaginous skeletal rudiments in vitro

The biological response of cultured 7-day embryonic chick tibiae to small alternating currents induced by pulsed magnetic fields (PMFs) was investigated. It was found that continuous exposure to PMFs over 7 days did not alter the overall DNA content of rudiments nor the incorporation of 3H-thymidine when compared with control tibiae. The overall collagen content of explants was slightly reduced by PMF exposure whilst the incorporation of 3H-proline was significantly suppressed. The synthesis of sulphated glycosaminoglycans was also measured in terms of 35SO4--incorporation, but PMF treatment failed to alter the levels of isotope incorporation. These results suggest that, whereas noncollagenous, and possibly collagenous, protein synthesis is affected by PMF exposure, glycosaminoglycan synthesis is not. Histological and electron microscopical observations substantiated this interpretation and revealed selective inhibition of matrix secretion in the periphery of the proliferative epiphyseal zones in experimental explants. High-power electron microscope examination of these zones showed that PMF-exposed matrix was sparsely invested with fibrous protein while elements of the stellate reticulum had formed large aggregates which were often clumped about the cell membrane. The results are discussed in terms of the possible role of naturally occurring potentials in the development and maintenance of connective tissue systems such as cartilage and bone.     

Alteration of ringer pH and its effects on precursor incorporation into Drosophila salivary gland nuclei

Drosophila salivary glands were explanted and incubated with ³H-uridine (or ³H-thymidine) in Ringer's solution (Ephrussi-Beadle modified saline) adjusted to pH values in the integral range, 4 to 10. The results of autoradiographic investigations indicate a differential effect of altering Ringer pH on ³H-uridine as opposed to ³H-thymidine incorporation: a) Relatively uniform levels of chromosomal incorporation of ³H-thymidine occurred over the range of test pH. Some decrease of incorporation was noted at pH 5 and some increase at pH 9. b) Chromosomal incorporation of ³H-uridine was severely depressed at pH 4 and 7 relative to the high incorporation levels observed at other pH values. Controlling pH of Ephrussi-Beadle Ringer's solution in such experiments seems a necessity. This appears especially important for studies involving ³H-uridine incorporation.     

Effect of ACTH on mitochondrial RNA synthesis of rat adrenocortical cells

Summary The incorporation of 3H-thymidine and 3H-uridine into adrenocortical cells of intact and ACTH-treated rats was investigated by high-resolution autoradiography. The quantitative analysis of autoradiographs shows no effect of ACTH on the incorporation of 3H-thymidine, at least in our experimental conditions. On the contrary, ACTH was found to enhance the incorporation of 3H-uridine into both adrenocortical nuclei and mitochondria. These findings are discussed in relation to numerous biochemical and morphological data, indicating that ACTH stimulates the synthesis of enzymes and structural proteins of adrenocortical cells.It is suggested that the mechanism of action of ACTH on adrenal cortex, consists in an integrated stimulation of both nuclear and mitochondrial DNA-dependent RNA synthesis.The authors wish to express their sincere appreciation to Mrs. L. Rebonato and Mr. G. Gottardo for skilled technical assistance.     

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.     

DNA synthesis inEscherichia coli B/r after UV-irradiation

When studying the kinetics of DNA synthesis, growth and cell division inEscherichia coli B/r after irradiation with different doses of UV-radiation (254 nm) we could demonstrate, by means of pulse incorporation of³H-thymidine, a lag in DNA synthesis after the irradiation. The relative rate of the restored DNA synthesis (related to the number of viable cells) was higher than in the non-irradiated culture. After 3 h the rate of DNA synthesis settled at a constant value, which was identical with the control rate up to the “critical dose” of 20 J/m². The irradiated cell population is heterogenous and contains basically two categories of cells — surviving and non-surviving. Cells of both types contribute to DNA synthesis restored after the lag period to a different extent. During the first hour after the irradiation even the nonviable portion of the population,i.e. cells that do not form colonies but are still penicillin-sensitive, is involved in the DNA synthesis.     

Inhibition of Nucleic Acid and Protein Synthesis in Mouse Spleen Cells In Vitro by Azathioprine

The effect of azathioprine on macromolecular biosynthesis was studied in mouse spleen cells cultured in vitro. The rate of incorporation of (3)H-thymidine, (3)H-uridine, and (14)C-leucine into acid-insoluble material was used to measure deoxyribonucleic acid, ribonucleic acid, and protein synthesis. Results indicate that azathioprine inhibited nucleic acid and protein synthesis at levels which did not decrease cell viability.     

Angiotensin II-induced growth effects in vascular smooth muscle in cell culture and in the aortic tunica media in organ culture

Several different studies have investigated the growth effects of angiotensin II on vascular smooth muscle cells in culture. However, smooth muscle cells change their phenotype when placed in culture. The objective of the present study was to investigate the effects of angiotensin II on (3)H-thymidine and (3)H-proline incorporation in vascular smooth muscle cells in culture and in the tunica media of blood vessels perfused at normal physiological pressures in organ culture, thus avoiding the phenotypic changes observed in cell culture. The perfusion system consisted of a peristaltic pump and a closed circuit of plastic tubing connected to a culture media bottle where thoracic rat aortae were placed. Angiotensin II induced an increase in (3)H-thymidine and (3)H-proline incorporation in both culture systems. The results suggest that angiotensin II may play a role in mediating cell growth in vascular smooth muscle cells in their 'contractile' as well as in their 'synthetic' phenotype.     

Suppression of the initiation of DNA synthesis as an index of cellular radiosensitivity

A gamma-radiation dose (Di) suppressing DNA synthesis initiation by 35% in primary suspension cultures of mammalian cells, is nearly the same as D0 for survival of clonogenic cells of the same lines and tissues. The extent of DNA synthesis suppression is assessed by impulse 3H-thymidine incorporation in the acid-insoluble fraction of irradiated cells. The values of Di determined in this way for HeLa cells, Ehrlich ascites tumor cells, mouse bone marrow and thymus cells are 2.0, 1.5, 1.5, and 1.0 Gy, respectively; as determined by clonogenic capacity of these cells, Di = 1.9, 2.0, 1.3, and 1.0 Gy, respectively.     

Effect of thiopyrimidine ribonucleosides on DNA and RNA synthesis in synchronized mammalian cell cultures

The uptake of ³H-uridine into RNA and of ³H-thymidine into DNA was investigated in synchronized Chinese hamster cells which had been exposed to thiopyrimidine ribonucleosides. The cells were synchronized at metaphase by reversal of colcemid inhibition; these cells were then labeled with either ³H-thymidine or ³H-uridine at selected times, and analyzed in autoradiographs. Incorporation of ³H-thymidine into DNA was not inhibited by administration to the cells of 2-thiouridine or 4-thiouridine (4 × 10⁻³ M). Exposure of the cells to the anti-metabolites for over 15 h significantly reduced the incorporation of ³H-uridine into nuclear RNA and completely blocked the labeling of cytoplasmic RNA. This finding is interpreted as an indication that RNA synthesis was inhibited in cells which continued to synthesize DNA. The inhibition of RNA synthesis hindered cell division and decreased cell viability. This lethal effect is similar to the “unbalanced growth” induced by inhibitors of DNA synthesis. The thiopyrimidine ribonucleosides, however, killed mammalian cells without inhibiting DNA synthesis.     

Microbeam radiation therapy alters vascular architecture and tumor oxygenation and is enhanced by a galectin-1 targeted anti-angiogenic peptide

In this study, we sought to determine the therapeutic potential of variably sized (50 μm or 500 μm wide, 14 mm tall) parallel microbeam radiation therapy (MRT) alone and in combination with a novel anti-angiogenic peptide, anginex, in mouse mammary carcinomas (4T1)--a moderately hypoxic and radioresistant tumor with propensity to metastasize. The fraction of total tumor volume that was directly irradiated was approximately 25% in each case, but the distance between segments irradiated by the planar microbeams (width of valley dose region) varied by an order of magnitude from 150-1500 μm corresponding to 200 μm and 2000 μm center-to-center inter-microbeam distances, respectively. We found that MRT administered in 50 μm beams at 150 Gy was most effective in delaying tumor growth. Furthermore, tumor growth delay induced by 50 μm beams at 150 Gy was virtually indistinguishable from the 500 μm beams at 150 Gy. Fifty-micrometer beams at the lower peak dose of 75 Gy induced growth delay intermediate between 150 Gy and untreated tumors, while 500 μm beams at 75 Gy were unable to alter tumor growth compared to untreated tumors. However, the addition of anginex treatment increased the relative tumor growth delay after 500 μm beams at 75 Gy most substantially out of the conditions tested. Anginex treatment of animals whose tumors received the 50 μm beams at 150 Gy also led to an improvement in growth delay from that induced by the comparable MRT alone. Immunohistochemical staining for CD31 (endothelial cells) and αSMA (smooth muscle pericyte-associated blood vessels as a measure of vessel normalization) indicated that vessel density was significantly decreased in all irradiated groups and pericyte staining was significantly increased in the irradiated groups on day 14 after irradiation. The addition of anginex treatment further decreased the mean vascular density in all combination treatment groups and further increased the amount of pericyte staining in these tumors. Finally, evidence of tumor hypoxia was found to decrease in tumors analyzed at 1-14 days after MRT in the groups receiving 150 Gy peak dose, but not 75 Gy peak dose. Our results suggest that tumor vascular damage induced by MRT at these potentially clinically acceptable peak entrance doses may provoke vascular normalization and may be exploited to improve tumor control using agents targeting angiogenesis.     

Ethanol inhibits hormone stimulated hepatocyte DNA synthesis

Insulin, glucagon, and epidermal growth factor (EGF) addition stimulated DNA synthesis in primary hepatocyte cell cultures prepared from adult rat liver. The addition of ethanol (20-200mM) to the culture medium resulted in a substantial reduction in DNA synthesis as measured by 3H-thymidine incorporation and autoradiography. This effect was specific for differentiated hepatocytes compared to fibroblasts and two other human hepatoma cell lines. These studies demonstrate in a cell culture system that one of the major properties of ethanol is the inhibition of hepatocyte DNA synthesis.     

Synthesis and phosphorylation of histone H1 and high mobility group proteins in the regenerating rat liver after X irradiation

A rat was irradiated to the upper abdomen including the liver and then partially hepatectomized. The subsequent synthesis and phosphorylation of histone H1 and nonhistone chromosomal high mobility group (HMG) proteins were investigated. Incorporation of [3H]lysine into histone H1 was increased and reached its peak at 27 h after hepatectomy, and 14 Gy of X rays inhibited the increase. Increase in the incorporation of [3H]lysine into HMG (1 + 2), 14, and 17 which occurred around 27 h after hepatectomy was not inhibited by 14 Gy irradiation. Phosphorylation of histone H1, measured with 32Pi incorporation in vivo, was maximal between 21 and 24 h, and it was inhibited by 4.8 Gy of X rays and delayed with 1.9 Gy. Phosphorylation of HMG 14, which was the only HMG protein phosphorylated under present conditions, was not affected by X irradiation. The [3H]thymidine incorporation into nuclear DNA started increasing at 21 h and reached its maximum at 27 h after hepatectomy. X irradiation with 4.8 Gy inhibited the incorporation, and 1.9 Gy lowered it.     

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.