Stimulation of uterine ornithine decarboxylase in organ culture by decreasing osmolality: Possible relation to in vivo mechanisms

Ornithine decarboxylase (ODC) activity increases during many growth responses. Some cells and tissues in culture also exhibit elevated enzyme activity with decreasing osmolality of the culture medium. We have found that this also occurs with uterine tissue from ovariectomized rats. Organ culture incubation under hypotonic conditions caused maximal stimulation of uterine ODC activity at 4 hr. This stimulation was observed when either NaCl or sucrose was used to adjust the osmolality. Incubation under isotonic conditions also increased ODC activity relative to hypertonic conditions. This increase was similar in magnitude to that seen with unincubated uterine tissue from animals receiving systemic estradiol or intrauterine cholera toxin. Both estradiol and cholera toxin increase vascular permeability, and the resultant edema changes the extracellular microenvironment of the uterine cells. We suggest that this change somehow is mimicked by organ culture under hypotonic or isotonic conditions and is responsible for the stimulation of uterine ODC activity.     

Increased osmolality of conscious water-deprived rats supports arterial pressure and sympathetic activity via a brain action

To test the hypothesis that high osmolality acts in the brain to chronically support mean arterial pressure (MAP) and lumbar sympathetic nerve activity (LSNA), the osmolality of blood perfusing the brain was reduced in conscious water-deprived and water-replete rats by infusion of hypotonic fluid via bilateral nonoccluding intracarotid catheters. In water-deprived rats, the intracarotid hypotonic infusion, estimated to lower osmolality by approximately 2%, decreased MAP by 9+/-1 mmHg and LSNA to 86+/-7% of control; heart increased by 25+/-8 beats per minute (bpm) (all P<0.05). MAP, LSNA, and heart rate did not change when the hypotonic fluid was infused intravenously. The intracarotid hypotonic fluid infusion was also ineffective in water-replete rats. Prior treatment with a V1 vasopressin antagonist did not alter the subsequent hypotensive and tachycardic effects of intracarotid hypotonic fluid infusion in water-deprived rats. In summary, acute decreases in osmolality of the carotid blood of water-deprived, but not water-replete, rats decreases MAP and LSNA and increases heart rate. These data support the hypothesis that the elevated osmolality induced by water deprivation acts via a region perfused by the carotid arteries, presumably the brain, to tonically increase MAP and LSNA and suppress heart rate.     

Frequencies of sister-chromatid exchanges in relation to cell kinetics in lymphocyte cultures

The frequency of sister-chromatid exchanges (SCE) was determined on second-division metaphase of lymphocytes stimulated by phytohaemagglutinin (PHA) during 9 days of culture.

By using either a continuous or a pulsed bromodeoxyuridine (BUdR) treatment, cells were selected that had divided only twice, or at least twice, after different culture periods. No significant differences were observed in the SCE frequencies among the various samples. The incidence of SCE appears to be independent of the proliferation properties of cultured lymphocytes, such as length of cell cycle, fast or delayed response to PHA and number of divisions performed in vitro.     

Induction of endoreduplication by hydrazine in Chinese hamster V 79 cells and reduced incidence of sister chromatid exchanges in endoreduplicated mitoses

Hydrazine in high concentrations very effectively induces endoreduplication in Chinese hamster V 79 cells. The addition of 5-bromodeoxyuridine (BrdU) for the duration of one cell cycle prior to the induction of endoreduplication produces diplochromosomes with sister chromatid differentiation (SCD) after differential chromatid staining. The fact that diplochromosomes with complete SCD are obtained shows that endoreduplication was induced in cells that were in G2-phase. The analysis of sister chromatid exchanges (SCEs) showed that hydrazine treatment rarely led to increased SCE frequencies in mitoses after endoreduplication, but that it caused a strong SCE induction in diploid second division metaphases in the same culture. Neither catalase nor cysteine had an effect on the induction of endoreduplication or the incidence of SCEs. Treatment of the cells with mitomycin C prior to addition of BrdU led to increased SCE frequencies. Compared with the normal mitoses from the same preparation, the mitoses after endoreduplication showed a significantly reduced induction of SCEs. In contrast to these findings, SCE induction was not reduced in the common tetraploid V 79 cells after colcemid-induced polyploidization.     

In vivo and in vitro promutagen activation by Vicia faba of thiocarbamate herbicides molinate and butylate to products inducing sister chromatid exchanges in human lymphocyte cultures

Molinate and butylate treatments for 4 h of Vicia faba root tip meristems, showed that both thiocarbamate herbicides increased significantly SCE frequency. Direct treatments of molinate and butylate on human lymphocytes applied 24 h after the beginning of culture did not induce SCE. When S10 extracts of the Vicia roots, treated for 4 h with molinate and butylate (in vivo activation) were added to lymphocytes (24 h after of the beginning of culture), SCE were induced in a concentration-response manner. The in vitro assays, in which molinate and butylate was added at 48 h lymphocyte cultures for 4 h, showed a negative response, however, in the treatment where the S10 metabolic mix was added the SCE frequencies were significantly different to the control, and the concentration-response relationship was not observed with molinate, but it was obtained with butylate. The results showed that both herbicides needed the V. faba metabolism to produce SCE in human lymphocyte culture.     

Hypotonicity-induced increases in duodenal mucosal permeability facilitates adjustment of luminal osmolality

The integrated response to hypotonic NaCl solutions (100, 50, 25, and 0 mM NaCl) in proximal duodenum of anesthetized rats was examined. Luminal alkalinization, fluid flux, duodenal contractions, blood-to-lumen clearance of 51Cr-labeled EDTA (mucosal permeability), and perfusate osmolality were studied in the absence and presence of the cyclooxygenase inhibitor indomethacin. In response to hypotonic solutions net fluid absorption, increases in permeability and perfusate osmolality were markedly higher in indomethacin-treated animals than in controls, and these effects were diminished by the nicotinic-receptor antagonist hexamethonium. Infusion of iloprost, a stable PGI2 analog, to indomethacin-treated animals markedly reduced the hypotonicity-induced increase in mucosal permeability and diminished the rise in perfusate osmolality. Lowering the NaCl concentration in the perfusion solution but maintaining isotonicity with mannitol had no effect on mucosal permeability. Very good linear correlations were obtained between the degree of luminal hypotonicity and the increase in permeability and between increases in permeability and perfusate osmolality. It is concluded that luminal hypotonicity increases duodenal mucosal permeability. The hypotonicity-induced increase in permeability modulated by prostaglandins and nicotinic receptors fulfills the function of increasing blood-to-lumen transport of Na+ facilitating adjustment of luminal osmolality.     

Cytogenetic effects of penicillamine

Penicillamine (PA), a drug used for the treatment of rheumatoid arthritis induces sister-chromatid exchanges (SCEs) and chromosome aberrations in cultivated mammalian cells. PA in concentrations from 400 micrograms/ml upward induced SCEs and proliferative delay in human blood cultures when added for the last 24 h of the culture period. In V79 Chinese hamster cells SCE induction was found after acute exposure to PA before the addition of BrdUrd and after chronic exposure during one cell cycle in the presence of BrdUrd. The effect of PA on SCE frequencies occurred both after treatment in complete medium and in serum-free medium and was not influenced by the application of an S9 mix. The simultaneous addition of peroxidase reduced the PA-induced SCEs whereas catalase did not show any effect. Chromosome analysis in the first mitosis after PA treatment revealed a significant increase in the incidence of chromosome aberrations and endoreduplication. The results are discussed with respect to the cause and the significance of the observed effects in connection with mutagenicity testing.     

Bimodal distribution of sensitivity to SCE induction by diepoxybutane in human lymphocytes. II. Relationship to baseline SCE frequency

Environmental and genetic factors have been implicated as important sources of individual variation in baseline sister-chromatid exchange (SCE) frequency in humans. The current study was designed to test whether the frequency of baseline SCEs in 58 normal blood donors is associated with previously observed variations in SCE frequencies induced by diepoxybutane (DEB). Because 12 subjects were current cigarette smokers and smoking is known to be an in vivo inducer of baseline SCE frequencies, we specifically tested whether higher baseline SCE frequencies in smokers would be associated with in vitro sensitivity to SCE induction by DEB. Analysis of variance showed that DEB-induced SCE frequencies were significantly associated with baseline SCE frequencies; those who were sensitive to SCE induction by DEB were more likely to have higher baseline SCE frequencies. This effect, however, was independent of in vivo induction of SCE by smoking. Chromosomal sensitivity to the induction of SCE by DEB explained approx. 15-20% of the variation in baseline SCE. This was similar in magnitude to the effect of cigarette smoking. Because increased sensitivity to DEB-induced SCEs is common in normal blood donors (approx. 24%) and is associated with an increase in baseline SCEs, it should be investigated as a source of bias and/or a potential marker of sensitivity to environmental mutagens in future cytogenetic studies.     

Osmolality dependence of erythrocyte sedimentation and aggregation in a strong magnetic field

In order to specify the major determinant of the magnetic enhancement of erythrocyte sedimentation observed previously, the dependence of erythrocyte sedimentation rate (ESR) on osmolality was measured under a strong magnetic field. Even at hypotonic osmolality, an increase in ESR due to aggregation was observed in plasma solution as compared with that without aggregation in saline solution. However, the magnetic field did not enhance ESR at hypotonic osmolality, when the cell shape was an isotropic sphere (spherocyte). Thus, we narrowed our search to a mechanism that would explain the enhanced ESR found specifically in anisotropic erythrocytes. It was concluded that the major determinant can only work for anisotropic erythrocytes and is a magnetic field-induced increase in an intermembrane adhesive area due to magnetic orientation of anisotropic erythrocytes.     

Paradoxical changes in SCE frequencies persistently elevated in vivo, on exposure to a mutagen in vitro

Lymphocyte cultures from 4 individuals with persistently significantly elevated frequencies of sister-chromatid exchange (SCE) were examined with no treatment, and with 2 concentrations of mitomycin C. In each of the 4 cases, the mean level of SCEs in the untreated lymphocytes exhibited a paradoxical reduction in SCE frequency when exposed to the lower (0.005 microgram/ml) of the two doses of mitomycin C. At the second higher dose of mitomycin C (0.025 microgram/ml) the mean level of SCE/cell exceeded the untreated mean. When the distributions of SCE/cell were examined it appeared that the untreated cultures had two or more populations of cells; one was in the normal SCE frequency range, while the second population was in an elevated SCE frequency range. The paradoxical reduction in SCE frequency was apparently due to elimination of, or mitotic inhibition of cells in the highest range of SCE frequency, while a small elevation in SCEs was initiated in the cells with a normal SCE frequency. Thus, mean levels of SCE/cell can be misleading. This data suggests that new exposure to the same or a different genotoxic agent might possibly result in a misleading lowering of the mean SCE frequency.     

Sister-chromatid exchanges in human lymphocytes after a non-S-phase incubation period to allow excision DNA repair-in vitro exposure to N-acetoxy-2-acetylaminofluorene and ethylene oxide

Sister-chromatid exchanges (SCE) were analyzed in human peripheral blood lymphocytes at the baseline level, after induction of DNA damage by N-acetoxy-2-acetylaminofluorene (NA-AAF) and ethylene oxide (EO), and after a subsequent 18-h DNA-repair incubation period. There was a significant difference between the baseline SCE frequencies as compared to those after 1 h of NA-AAF or EO treatment. There was no significant difference between the SCE frequencies after 1 h of NA-AAF treatment and those after 18 h of DNA-repair incubation, suggesting that only a low level of NA-AAF damage to DNA had been removed. However, there was a significant difference between the SCE frequencies after 1 h of EO treatment and those after 18 h of DNA-repair incubation, indicating that a significant level of EO induced DNA lesions had been repaired. Thus, it seems likely that the EO induced DNA damage is more easily recognized, and hence more rapidly repaired than the NA-AAF induced damage. The reason for this may be the different chemical nature of the DNA lesions induced, which, in turn, leads to different kinetics of DNA repair.     

Effect of osmolality on the initiation of sperm motility in Xenopus laevis

1. Seminal plasma of the South African clawed toad Xenopus laevis exhibited osmolality around 250 mosmol/kg isotonic to blood plasma. 2. Spermatozoa remained immotile when the semen was diluted in solutions of 100 mM NaCl, 100 mM KCl or 200 mM glucose containing 20 mM Hepes-NaOH buffer which exhibited almost the same osmolalities (approximately 240 mosmol/kg) as seminal plasma. 3. The spermatozoa became motile in these three solutions if the osmolalities were decreased. 4. These suggest that motility of Xenopus sperm is suppressed by seminal osmolality in the reproductive organ and initiated by a decrease of osmolality when they are spawned into hypotonic fresh water.     

Dependency of the yield of sister-chromatid exchanges induced by alkylating agents on fixation time. Possible involvement of secondary lesions in sister-chromatid exchange induction

Chinese hamster V79 cells were pulse-treated (for 60 min) with various mutagens three, two or one cell cycles before fixation (treatment variants A, B and C, respectively) and the frequencies of induced SCEs were analysed and compared. The degree of increase in frequency of SCEs with dose in the treatment variants depended on the mutagen used. For the methylating agents MNU, MNNG and DMPNU, high yields of SCEs were obtained in the treatment variants A and B, and there was no difference in the efficiency with which these agents induced SCEs in these treatment variants. In the treatment variant C, however, no SCEs were induced with mutagen doses yielding a linear increase in SCE frequency in treatment variants A and B. A slight increase in SCE frequency in treatment variant C was observed only when relatively high doses of MNU or MNNG were applied. Like the above agents, EMS, ENU and MMS induced more SCEs in treatment variants A and B than in C, but for these agents treatment variant B was most effective and SCEs were induced over the entire dose range, also in treatment variant C. As opposed to the methylating and ethylating agents, MMC induced SCEs with high efficiency when treatment occurred one or two generations prior to fixation. There was no difference in SCE frequency between these treatment variants. MMC was completely ineffective for the induction of SCEs when treatment occurred three generations before fixation. The unexpectedly low SCE frequencies induced by the methylating and ethylating agents when treatment occurred one generation before fixation were not due to the exposure of cells to BrdU prior to mutagen treatment. From the results obtained, it is concluded that DNA methylation and ethylation lesions give rise to SCEs only with very low probability during the replication cycle after the lesion's induction, and that subsequent lesions produced during or after replication of the methylated or ethylated template (secondary lesions) are of prime importance for SCE formation after alkylation. For MMC, however, primary lesions seem to be most important for SCE induction.     

Induction of sister-chromatid exchanges in Chinese hamster ovary cells by thiol and hydrazine compoudns

Cysteine, cysteamine and glutathione all induce sister-chromatid exchanges (SCEs) in Chinese hamster ovary (CHO) cells when applied to cell cultures at concentrations between 10(-4) and 10(-2) M. Acute exposure of cells th thiol compound for a period of 2--3 h resulted in a unique dose--response relationship in each instance. This consisted of two peak SCE frequencies, one at either extreme of the concentration range. Each peak corresponded to a 2--3-fold increase over the spontaneous level. A chronic exposure of 24 h, in contrast, resulted in a dose--response relationship consisting of a single peak SCE frequency (representing a 4--5-fold increase over the spontaneous level) at a concentration of approx. 4 x 10(-4) M. The effect of Cu2+ ions included in the medium at a concentration of 10(-5) M was to increase the toxicity and, at some concentrations, the SCE levels occurring after either acute or chronic exposure to thiols. Hydrazine and its derivatives, dimethylhydrazine and isonicotinic acid hydrazide (isoniazid), as well as hydrogen peroxide, also induce SCEs in CHO cells. A 2--3-fold increase over the spontaneous level was observed, depending upon the particular treatment protocol applied. SCE yields after 3 h treatment with dimethylhydrazine and isoniazid were increased if Mn2+, but not Cu2+, was included in the tissue culture medium at a concentration of 10(-5) M. SCE yields after a 24-h treatment with dimethylhydrazine in which Mn2+ was present in, and absent from, the medium were similar. Catalase was observed to reduce the SCE levels resulting from treatment with hydrogen peroxide, dimethylhydrazine and isoniazid. The effect of catalase upon SCEs induced by dimethylhydrazine and isoniazid in the presence of Mn2+ was more evident than when Mn2+ was not included in the culture medium. The significance of these results with respect to the possible active chemical species produced and the mutagenic/carcinogenic risk associated with thiol and hydraizine compounds is discussed.     

Sister-chromatid exchanges and cell-cycle kinetics in human lymphocyte cultures exposed to alkylating mutagens: apparent deformity in dose-response relationships

Experiments have been carried out using human whole-blood cultures to determine the effects of sampling times and of the duration of 5-bromodeoxyuridine (BrdUrd) treatment before fixation on sister-chromatid exchange (SCE) frequencies following exposure to mitomycin C (MMC). Cells were pulse treated for 1 h with 3 X 10(-6) M MMC at G1, and then sampled at 4-h intervals up to 88 h after stimulation of cultures with phytohemagglutinin (PHA). Results showed that this MMC treatment induced a 5-6 h proliferation delay per cell cycle, and that SCE frequencies first increased with time of fixation, peaking at 68 h, and then decreased. When cells were similarly treated with MMC, but subsequently exposed to BrdUrd for various times before fixation of cultures at 72 h, the SCE frequencies markedly increased with increasing durations of BrdUrd incubation times. These data indicate that, in mutagen-treated cultures, lymphocytes having relatively longer cell-cycle times show a higher mean frequency of SCEs. In a subsequent experiment, cells were treated for 1 h with increasing doses of MMC or 4-nitroquinoline 1-oxide (4NQO) at 0, 24, or 48 h, and then fixed at 72 h after PHA stimulation. Results showed that the optimal treatment times at which the agents could most efficiently produce SCEs were different for MMC and 4NQO, and that the dose-response curves tended to 'bend down' at very high doses; that is, treatments with very high doses induced smaller than expected numbers of SCEs. However, cells similarly treated with very high doses showed a higher, expected frequency of SCEs when sampled at 84 h, but again had a lower than expected SCE frequency when fixed at 96 h. The results indicate that there is an optimal time for sampling at which one can observe the maximum increase in SCE frequencies following mutagen exposure, and strongly suggest that the higher the dose, the later the optimal sampling time. Because of the apparent deformity of dose-response curves obtained after various treatments and sampling times, it seems necessary that extra fixation-time points be included in test protocols so as to avoid false negatives or confirm possible positives.     

Implications of an elevated sister-chromatid exchange frequency in rat lymphocytes cultured in the absence of erythrocytes

One important variable in complex culture systems such as whole blood is the interaction of the cell types present. To investigate the effects of erythrocytes (RBCs) and monocytes on the sister-chromatid exchange (SCE) frequency, Ficoll-Hypaque-separated Fischer-344 rat leukocytes were added to 1.9 ml of culture medium containing either 4 micrograms phytohemagglutinin or 4-8 micrograms concanavalin A/ml. Bromodeoxyuridine (BrdU;2 microM) was added at 24 h, and the cultures were harvested at 54 or 72 h. SCE frequencies in the mononuclear leukocyte cultures were consistently about 1.5- to 2-fold higher than in the whole-blood cultures. The titration of rat or human RBCs (0.05-2.5 X 10(9)) into purified rat leukocyte cultures reduced the SCE frequency to that of whole-blood cultures. Monocyte depletion decreased the elevated SCE frequency by approximately 50%. Scintillation counting of [14C]BrdU uptake in isolated RBCs revealed that less than 8% of the total amount of BrdU was sequestered. Also, BrdU induced a concentration-dependent increase in SCE in purified leukocytes, but the absolute increase was no greater than in whole-blood lymphocytes. Thus, BrdU had a minor role in the elevated SCE frequency in purified lymphocytes. Neither anti-oxidant enzymes such as catalase and superoxide dismutase nor the hydroxyl radical scavenger, dimethyl sulfoxide, decreased the SCE frequency. Although purified human lymphocytes had a small, but significant increase in SCE compared to whole blood, the magnitude of the dichotomous response between man and rat may represent a fundamental species difference.     

Volume changes of an endothelial cell monolayer on exposure to anisotonic media

The osmotic process plays an important role in controlling the distribution of water across cell membranes and thus the cell volume. A system was designed to detect the volume changes of an endothelial cell monolayer when cells were exposed to media with altered osmolalities. Electrodes housed in a flow chamber measured the resistance of ionic media flowing over a cultured cell layer. Assuming the cell membrane acts as an electrical insulator, volume changes of the cell layer can be calculated from the corresponding changes in chamber resistance. The media used in the experiments had osmolalities in the range 120-630 mmol/kg. When cells were exposed to hypertonic media, there was rapid shrinkage with an approximate 30% reduction in total cell volume for a twofold increase in osmolality. On exposure to hypotonic media, the cells initially swelled with an approximate 20% volume increase for a decrease in osmolality by half. With sustained exposure to low osmolality media, there was a gradual and partial return of cell volume towards isotonic values that started 10 minutes after and was complete within 30 minutes of the osmolality alteration. This finding suggests regulatory volume decrease (RVD); however, no regulatory volume increase (RVI) was observed with the continued exposure to hypertonic media over 45 minutes.     

SCE increases after an accidental acute inhalation exposure to EtO and recovery to normal after 2 years

Sister-chromatid exchanges (SCEs) were studied in 3 workers accidentally exposed for about half an hour to high levels of ethylene oxide (more than 700 ppm) during a sterilizing process. The 3 workers had clinical symptoms of exposure and were tested for SCE frequencies 5 days and 2 years after the accident: 2 had also been tested 6 months earlier. All 3 showed a similar increase in SCEs after the accident, to a mean of 13.8 SCEs/cell compared with 8.6 for a control group. The incidence of 'high-frequency cells' was markedly elevated but decreased over 2 years, when the mean SCE frequencies had also returned to pre-accident levels.     

Erythrocytes modulate the baseline frequency of sister-chromatid exchanges and the kinetics of lymphocyte division in culture

The baseline sister-chromatid exchange (SCE) frequencies of human plasma lymphocyte cultures (PLC), but not pig PLC, were nearly twice as high as those of whole-blood cultures (WBC). Addition of human red blood cells (RBCs) to human PLC decreased the SCE frequency in proportion to the RBC-leukocyte co-incubation interval. When the period of RBC-leukocyte co-incubation was equivalent to the total length of the culture period (72 h), the SCE frequency was similar to that observed in WBC. Shorter co-incubation periods yielded SCE frequencies intermediate between those of PLC and WBC. Regardless of the species, cell proliferation was slower in PLC than in WBC. Experiments where RBCs were added to PLC showed that the time sequence of RBC incorporation also affects the cell-cycle progression of human and pig lymphocytes. When either human or pig RBCs were added immediately after PLC stimulation, the cell-cycle kinetics was similar to that of WBC. Shorter co-incubation periods made cell-cycle progression intermediate between PLC and WBC values. Thus, PBCs modulate the baseline frequency of SCEs in human PLC and the cell-cycle progression of both human and pig lymphocytes in a time-dependent manner. Two possible hypotheses for the heightened frequency of SCEs of human lymphocytes in RBC-free cultures were assessed. The loss of RBC-to-lymphocyte cellular contact in PLC did not influence the SCE frequencies of lymphocytes. Finally, the increase of SCEs in human PLC could not be related to differences in the generation time of lymphocytes in culture.     

Fixation of potentially lethal radiation damage by post-irradiation exposure of Chinese hamster cells to 0.5 M or 1.5 M NaCl solutions.

The effect of 0.05 M and 1.5 M NaCl treatments on CHO cells during and after irradiation has been examined. Treatment with either hypotonic or hypertonic salt solutions during and after irradiation resulted in the fixation of radiation damage which would otherwise not be expressed. The half time for fixation was 4 to 5 min, and the increased expression of the potentially lethal damage by anisotonic solutions was mainly characterized by large decreases in the shoulder of the survival curve, as well as by decreases in DO. Fixation of radiation damage at 37 degrees C occurred to a much greater extent for the hypertonic treatment than for the hypotonic treatment and was greater at 37 degrees C than at 20 degrees C. Although both the hypotonic and hypertonic treatments during and after irradiation reduced or eliminated the repair of sublethal and potentially lethal damage, treatment during irradiation only, radiosensitized the cells when the treatment was hypotonic, and radioprotected the cells when the treatment was hypertonic. These observations are discussed in relation to salt treatments and different temperatures altering competition between repair and fixation of potentially lethal lesions, the number of which depends on the particular salt treatment at the time of irradiation.