Development of a mouse cell line containing the PhiX174 am3 allele as a target for detecting mutation.

Transgenic mice containing multiple copies of the PhiX174 am3 allele are being developed as a model for detecting tissue-specific in vivo mutation. In order to derive an analogous system for measuring am3 mutation in vitro, cells were cultured from 15-day-old C57Bl/6J mouse embryos that were homozygous for the transgene and these cells were transfected with a plasmid expressing the SV40 large T-antigen. Two G418-resistant colonies were isolated from this culture and expanded to continuously proliferating cell lines (PX-1 and PX-2). Line PX-2 was treated with up to 1.0 mg/ml of N-ethyl-N-nitrosourea (ENU), assayed for survival by cloning efficiency after overnight culture, and assayed for am3 mutations after 5 days of culture. Survival decreased to 31% at the highest dose of ENU, while mutant frequency increased with dose from approximately 2 x 10(-7) in the untreated cells to 13 x 10(-7) in cultures treated with 0.6 mg/ml of ENU. PX-2 cells also were treated with 0 and 0.6 mg/ml of ENU and mutant frequency assays were performed after 5, 24, 48 and 72 h of growth. The mutant frequency in the treated culture increased to 20 x 10(-7) at 48 h and remained approximately the same at 72 h. These results indicate that PX-2 cells should be a useful resource for developing the in vivo am3 mutant assay and for evaluating the sensitivity of the am3 allele to various classes of mutagens.     

The in vivo but not the in vitro am3 revertant frequencies increase linearly with increased ethylnitrosourea doses in spleen of mice transgenic for phiX174 am3, cs70 using the single burst assay

The am3 revertant frequencies (RF) in spleens from male mice transgenic for phiX174 am3, cs70 were analyzed 14 weeks after ethylnitrosourea (ENU) treatment, both by the single burst assay (SBA) and the mixed burst assay (MBA). The mean in vivo (burst size >30/assay plate) revertant frequency (MRF) for the vehicle control was 2.6x10(-7). The ENU induced in vivo RF were linear over the dose range 0-150mg/kg, (r(2)=0.999). The concomitant in (burst size G transitions. Sequence analysis of in vivo revertants from ENU treated animals revealed revertants that were 17% A-->G transitions and 83% A-->T transversions, the latter being consistent with the reported A:T base pair alterations induced by ENU. No A-->C transitions were seen. This suggests the occurrence of an ENU-induced O(2) ET-dT lesion leading to a dT base mismatch. The observations in this report both confirm and validate the use of the SBA for distinguishing between in vivo mutations that are fixed in the animal and in vitro mutations that arise from other sources. The ability of the SBA to distinguish the in vivo from the in vitro origin of mutations has increased the specificity, sensitivity and utility of the phiX transgenic system.     

Letinula edodes (Berk.) Pegler (Shiitake) modulates genotoxic and mutagenic effects induced by alkylating agents in vivo

We evaluated the antimutagenic effect of Letinula edodes (Berk.) Pegler (Shiitake) on the frequency of micronuclei in mice treated with N-ethyl-N-nitrosourea (ENU) or cyclophosphamide (CP). Mice were orally (gavage) pretreated for 15 consecutive days with solutions of Shiitake (0.6 ml per day, gavage) prepared at three different temperatures: 4, 21 (RT), and 60 degrees C. Then, the animals were intraperitoneally injected on day 15 with CP (25 or 50mg/kg) or ENU (50 mg/kg) and killed 24 or 48 h after treatment for evaluation of micronucleated polychromatic erythrocytes (MNPCEs) in bone marrow and micronucleated reticulocytes (MNRETs). A mixture of L. edodes lineages (LE 95/016, 96/14, 96/17, 96/22, 96/23, 97/27, and 97/28) significantly decreased the frequencies of MNPCEs and MNRETs induced by CP (25 and 50mg/kg). When a single lineage from the mixture (LE 96/17) was tested we also found a significant reduction in the frequencies of MNPCEs and MNRETs induced by both CP or ENU (50mg/kg). The comet assay was also performed 3h after ENU treatment using mice pretreated with the single lineage (LE 96/17) of L. edodes. The results showed a high degree of variability with some indications of an antigenotoxic effect. Taken together, our data show that solutions from Shiitake inhibit in vivo mutagenicity of CP and ENU.     

ENU mutagenesis in the mouse electrophoretic specific-locus test, 1. Dose-response relationship of electrophoretically-detected mutations arising from mouse spermatogonia treated with ethylnitrosourea

The mouse electrophoretic specific-locus test for induced germ-cell mutations, was used to determine the response of spermatogonial stem cells to a series of doses of the germ cell mutagen N-ethyl-N-nitrosourea (ENU). Male DBA/2J and C57B1/6J mice were treated with doses of 50, 100, 200 or 250 mg/kg ENU and their progeny screened for electrophoretically-detectable mutations at 32 separate loci. As expected, increasing doses of ENU led to increasing mutant frequencies. The differences in mutant frequencies between treated DBA/2J and C57B1/6J males were not statistically significant.     

Postnatal development and neoplastic disease pattern in NMRI mice after combined treatment with ethylnitrosourea and X-irradiation on different days of the fetal period

Mice were X-irradiated on day 14, 15 or 16 of gestation with 1.0 Gy. This did not result in an increased tumour frequency in the offspring until 12 months. Mice treated with ethylnitrosourea (ENU) (45 mg/kg) on these gestation days developed a significantly increased tumour frequency in the lungs and liver, and in the ovaries after treatment on day 15 of gestation. Additionally this experiment was the first to show that ENU treatment on gestation day 14, 15 or 16 results in haemangiosarcomas of the subcutis at a low incidence (2.0, 2.4, 2.6 per cent). After combined treatment with these two agents in the sequence X+ENU and an interval of 4 h, a significantly increased incidence rate of animals with tumours was observed in the offspring treated on gestation day 14 or 16. Moreover, the treatment on gestation day 16 exhibited the highest tumour frequency per examined animal (5.7) of all treatment groups. This result is due to a relatively uniform increase of all tumor types. Within this pattern, the frequency of liver tumours was most marked. The diagnosed liver tumours were significantly augmented after X+ENU treatment on day 16. In the reverse sequence (ENU+X), the total tumour outcome was not significantly altered compared with the effects of ENU alone. However, detailed analysis also showed a significant augmentation of the liver tumour frequency with treatment on day 15.     

Establishment of a dose-response relationship for reverse mutation at the HPRT (hypoxanthine guanine phosphoribosyl transferase) locus in L5178Y mouse lymphoma cells

L5178 mouse lymphoma cells were treated with the mismatching agent 6-hydroxy-aminopurine (HAP), a base analogue known to produce forward and reverse mutations in bacteria. Mutants with the phenotype deficient in hypoxanthine guanine phosphoribosyl transferase (HPRT) were selected in 6-thioguanine (TG)-containing medium and isolated. Reverse mutations to Hhe HPRT-proficient phenotype oc occuredd both spontaneously and after treatment with ethyl nitrosourea (ENU), which suggested that the initial HAP treatment had induced point mutations at the HPRT locus.

Reconstruction experiments, in which a small number of wild-type cells together with different numbers of mutant cells were seeded in HAT medium, indicated that densities up to 10⁶ cells per ml can be used for the selection of revertants. Optimal expression of induced revertants was obtained two days after treatment.

The dose-response relationship for induction of reverse mutations by ENU appears not to deviate from linearity. The highest revertant frequency observed was 3.3 × 10⁻⁵ at an ENU concentration of 1 mM. The spontaneous reversion frequency per generation — based on 3 spontaneous revertants — was estimated to be 1.3 × 10⁻⁹. All revertants were indistinguishable from the parental wild-type line with respect to the activity as well as the electrophoretic mobility of HPRT.     

An Unstable Allele of the am Locus of NEUROSPORA CRASSA

The mutant strain am126 was isolated, using the direct selection procedure, after nitrous acid mutagenesis. It produced neither measurable NADP-dependent glutamate dehydrogenase (GDH) nor immunologically cross-reacting material. That the am126 strain produced some form of GDH product was shown by the fact that it complemented several other am mutant strains. The GDH formed by complementation between am126 and each of two other am mutants was relatively thermolabile, but could not be distinguished from wild-type GDH formed by electrophoresis in polyacrylamide gels. This, together with the relatively high yield of the complementation enzymes, suggest that the am126 product is a polypeptide chain not grossly abnormal in structure. The spontaneous revertant frequency was between 0.3 and 3 prototrophic revertants per 10(5) live cells. This frequency was at least 40 times greater than that for am19, which had the second highest spontaneous revertant frequency among the mutants tested. Neither meiosis nor mutagenesis increased the revertant frequency, nor did incubation at elevated temperatures lower it. Sixty-eight revertant strains were examined for thermostability of their GHD. All appeared to be identical to wild type. Seven of the revertant strains were also tested for instability with regard to forward mutation to am auxtrophy. None was found to be unstable. Models for the genetic instability of the am126 mutation are discussed.     

A study of the frequency of sister-chromatid exchange and of thioguanine-resistant cells in mouse spleen lymphocytes after in vivo exposure to ethylnitrosourea

As part of the development of a multi-endpoint, in vivo, mouse model for mutagenesis we have measured the frequency of sister-chromatid exchange (SCE) and the frequency of thioguanine-resistant (TGr) cells among the lymphocytes of the mouse spleen following acute, intraperitoneal exposure to ethylnitrosourea (ENU). The responses of these two endpoints have been monitored both as a function of the dose of ENU injected, ranging from 0 to 70 mg/kg, and as a function of time after injection, from 1 day to 72 days. The SCE frequency response was highest 1 day after the ENU was injected, increasing 2.5-fold over control values for mice that received 70 mg/kg, and declined to control values in all animals by 72 days. SCE showed a linear dose response both at 1 day and 8 days after injection. The frequency of TGr cells was at control levels at 1 day, but at 15, 36 and 72 days after ENU injection the frequency of TGr cells showed a linear dose response. In addition, the frequency of TGr cells increased linearly with time for both the 35 and 70 mg/kg doses. The frequency of TGr cells for mice that had received 70 mg ENU/kg 72 days previously, was 100-fold higher than in control animals, giving a frequency of 1.4 X 10(-4).     

Relationships between exposure, cell loss and proliferation, and manifestation of Hprt mutant T cells following treatment of preweanling, weanling, and adult male mice with N-ethyl-N-nitrosourea

Experiments were performed to characterize the age-related patterns of appearance and frequency of hypoxanthine-guanine phosphoribosyl transferase (Hprt) mutant T lymphocytes in thymus and spleen following exposure of preweanling (12-day-old), weanling (22-day-old), and young adult (8-week-old) male B6C3F1 mice to ethylnitrosourea (ENU). Mice were given single i.p. injections of 0 or 40 mg ENU/kg and then groups of animals were necropsied from 2 h to 116 days after treatment to examine the relationships between exposure, cell loss and proliferation, and the frequency of Hprt mutant T cells in thymus and spleen. Hprt mutant frequency (Mf) data for thymus of ENU-exposed (0, 11.7, 35, 58, or 72 mg/kg, or five weekly doses of 1.7 mg/kg i.p.) male C57BL/6 mice (12- or 62-week-old), obtained during an earlier study of spleen cells [I.M. Jones, K. Burkhart-Schultz, C.L. Strout, T.L. Crippen, Factors that affect the frequency of thioguanine-resistant lymphocytes in mice following exposure to ethylnitrosourea, Environ. Mutagen. 9 (1987) 317–329.], were compared to results in B6C3F1 mice. Isolated T cells were cultured in the presence of mitogen, growth factor, and 6-thioguanine to detect Hprt mutants. The time required to achieve maximum Mfs in thymus was uniformly found at 2 weeks after ENU treatment, while the times needed to reach peak values in spleen were proportional to animal age at treatment. These data indicate that age-related differences in the appearance of Hprt mutant cells in spleen are largely defined by the physiologically based, age-dependent trafficking of mutant cells from or through the thymus. Three modes of handling the resulting Hprt Mf data were evaluated: (i) comparing the Mfs at a single time point, (ii) comparing the maximum Mfs observed, and (iii) comparing the change in Mfs over time (or the mutant T cell ‘manifestation’ curves in treated vs. control mice) in each age group post-exposure. Measuring the Mfs in spleen at multiple time points after cessation of exposure and integrating the frequency of mutants as a function of time appeared to be the superior method for comparing mutagenic responses in different age groups. Some of the underlying assumptions of this approach, as well as its strengths and weaknesses, are discussed.     

Micronucleated reticulocyte induction by ethylating agents in mice.

Six model ethylating agents were tested for clastogenic potency by means of a new technique of the micronucleus assay with mouse peripheral blood cells using acridine orange (AO)-coated slides, to evaluate the test. The alkylating agents were: N-ethyl-N'-nitro-N-nitrosoguanidine (ENNG), N-ethyl-N-nitrosourea (ENU), diethylsulfate (DES), ethyl methanesulfonate (EMS), epichlorohydrin (ECH) and ethylene dibromide (EDB). The animals were given a single intraperitoneal injection of the following doses of the chemicals: ENNG and ENU, 25, 50 and 100 mg/kg; EMS and DES, 100, 200 and 400 mg/kg body weight. For EDB and ECH, the doses were 50, 100 and 200 mg/kg, given twice, 24 h apart. Before and after the injection, blood samples were taken from the tails at 24-h intervals up to 72 h and preparations were made on AO-coated slides. For each dose group, 4 animals were used and 1000 reticulocytes were examined per slide for the presence of micronuclei. At the optimum induction time of 48 h, ENU induced micronucleated reticulocytes (MNRETs) at all 3 doses. ENNG and EMS induced MNRETs significantly at 2 dose levels each and DES only at the highest dose. ECH and EDB failed to induce MNRETs. On the basis of the dose of chemical needed to double the spontaneous frequency, the order of clastogenic potency was ENU greater than ENNG greater than EMS greater than DES. The results obtained compared favorably with those from other in vivo methods. The present technique proves to be simple, flexible and relatively sensitive. Shifts in the optimum induction peak in individual animals and by some chemicals can be picked up easily which is important when testing weak mutagens and chemicals with an unknown mechanism of action.     

Linear dose-response relationship of erythrocyte enzyme-activity mutations in offspring of ethylnitrosourea-treated mice

The specific activity of 10 erythrocyte enzymes was measured to detect gene mutations in F1 offspring of male mice treated with 3 different doses of ethylnitrosourea (ENU). After administration of ENU or of the solvent (controls), the (101/El X C3H/El)F1 hybrid males were mated to untreated T-stock females. No enzyme-activity mutant was found in 3610 F1 offspring of the control group. After treatment of postspermatogonial germ-cell stages, 1 mutant in 1125 F1 offspring of males treated with 160 mg ENU/kg body weight, and 2 mutants in 1319 F1 offspring of a 250-mg/kg group were observed. After treatment of spermatogonia, 9 enzyme-activity mutants in 4247 F1 offspring of males treated with 80 mg ENU/kg body weight, 15 mutants in 3396 F1 offspring of a 160-mg/kg group, and 9 mutants in 1402 F1 offspring of a 250-mg/kg group were detected. The mutation frequencies in spermatogonia were significantly different from that of the controls (P less than 0.01). The dose-response curve was found to be linear. The frequencies of enzyme-activity mutations are comparable to those of recessive specific-locus mutations determined in the same experiments. Enzyme-activity mutants with reduced activity as well as mutants with enhanced activity were found. Genetic and biochemical characterization of enzyme-activity mutants was routinely performed. In inter se crossings of heterozygotes, no offspring expressing a third phenotype other than the wild type and the heterozygote were found in approximately half of the mutation studies. The recovered mouse mutants might be used as animal models to study corresponding genetic diseases in humans.     

The effect of ethyl-, methyl- and hydroxyethyl-nitrosourea on the mouse testis

Hybrid male 101 X C3HF1 mice were given intraperitoneal injections of methyl-, ethyl- and hydroxyethyl-nitrosourea and killed 3-16 days later. All compounds were similar in that all differentiating spermatogonia from type A1 to early type B were killed by 50 mg/kg and higher doses of ENU and by 75 mg/kg MNU. Cells exposed in leptotene to 100 and 250 mg/kg ENU and 455 mg/kg HENU showed a delayed response with degeneration in pachytene 5 days later. Labeling prior to exposure to ENU indicated that the effect of stage of the mitotic cycle on sensitivity to cell killing is less marked than for radiation. This may be the explanation for the s-shaped mutation induction curve obtained with ENU in contrast to the humped dose-response curve observed for radiation.     

Relationships between exposure, cell loss and proliferation, and manifestation of Hprt mutant T cells following treatment of preweanling, weanling, and adult male mice with N-ethyl-N-nitrosourea

Experiments were performed to characterize the age-related patterns of appearance and frequency of hypoxanthine-guanine phosphoribosyl transferase (Hprt) mutant T lymphocytes in thymus and spleen following exposure of preweanling (12-day-old), weanling (22-day-old), and young adult (8-week-old) male B6C3F1 mice to ethylnitrosourea (ENU). Mice were given single i.p. injections of 0 or 40 mg ENU/kg and then groups of animals were necropsied from 2 h to 116 days after treatment to examine the relationships between exposure, cell loss and proliferation, and the frequency of Hprt mutant T cells in thymus and spleen. Hprt mutant frequency (Mf) data for thymus of ENU-exposed (0, 11.7, 35, 58, or 72 mg/kg, or five weekly doses of 1.7 mg/kg i.p.) male C57BL/6 mice (12- or 62-week-old), obtained during an earlier study of spleen cells [I.M. Jones, K. Burkhart-Schultz, C.L. Strout, T.L. Crippen, Factors that affect the frequency of thioguanine-resistant lymphocytes in mice following exposure to ethylnitrosourea, Environ. Mutagen. 9 (1987) 317–329.], were compared to results in B6C3F1 mice. Isolated T cells were cultured in the presence of mitogen, growth factor, and 6-thioguanine to detect Hprt mutants. The time required to achieve maximum Mfs in thymus was uniformly found at 2 weeks after ENU treatment, while the times needed to reach peak values in spleen were proportional to animal age at treatment. These data indicate that age-related differences in the appearance of Hprt mutant cells in spleen are largely defined by the physiologically based, age-dependent trafficking of mutant cells from or through the thymus. Three modes of handling the resulting Hprt Mf data were evaluated: (i) comparing the Mfs at a single time point, (ii) comparing the maximum Mfs observed, and (iii) comparing the change in Mfs over time (or the mutant T cell ‘manifestation’ curves in treated vs. control mice) in each age group post-exposure. Measuring the Mfs in spleen at multiple time points after cessation of exposure and integrating the frequency of mutants as a function of time appeared to be the superior method for comparing mutagenic responses in different age groups. Some of the underlying assumptions of this approach, as well as its strengths and weaknesses, are discussed.     

ENU mutagenesis in the mouse electrophoretic specific-locus test. 2. Mutational studies of mature oocytes.

Experiments were conducted using the biochemical specific-locus test to assess the mutagenicity of N-ethyl-N-nitrosourea (ENU) in mature oocytes of mice. C57Bl/6J females were treated with 100 mg/kg ENU by intraperitoneal injection and mated to untreated DBA males for 1 week following treatment. 1447 progeny were screened for evidence of mutations affecting the electrophoretic mobility of 32 different proteins; two mutants were detected by electrophoretic analyses. These results provide evidence that ENU is a germ-cell mutagen in mouse mature oocytes, although the frequency of mutants is somewhat lower than that obtained from spermatogonia treated with the same dose.     

The induction of recessive mutations in mouse primordial germ cells with N-ethyl-N-nitrosourea

A specific-locus test was carried out to examine the mutagenic activity of N-ethyl-N-nitrosourea (ENU) on mouse primordial germ cells (PGC). Embryos of C3H/He mice were treated transplacentally with 30 or 50 mg ENU per kg of maternal body weight on day 8.5, 10.5, or 13.5 of gestation (G8.5 day, G10.5 day, or G13.5 day). Male and female mice that had been treated with ENU in embryonic stages were mated with female or male tester PW mice to detect recessive mutations induced in PGC.

ENU induced recessive mutations at a relatively high rate in PGC at these developmental stages. The most sensitive stage was G10.5 day. On G8.5 day, the induced mutation rate in males and females was not significantly different. Cluster mutations, which originate from the limited number of PGC and cell killing, were more frequently induced at an earlier developmental stage. The induced mutation rate per unit dose of ENU (1 mg/kg) was higher in G8.5 and G10.5 day PGC than in stem-cell spermatogonia. It can be concluded that mouse PGC are more sensitive than stem-cell spermatogonia to the induction of recessive mutations by ENU.     

Tumour incidence in the progeny of male rats exposed to ethylnitrosourea before mating

BDVI male rats were given a single i.p. dose of 80 mg/kg b.w. ethylnitrosourea (ENU), and each rat was then mated at weeks 1, 2, 3, 4 and 5 after treatment with 3 untreated females. A decrease in the fecundity of the treated males was observed, particularly when they were mated 5 weeks after ENU treatment. The average litter size was lower in the treated group, especially for females mated in week 4. No significant differences in pre- or post-weaning mortality were noted between control and treated groups. A slight, non-significant increase in the incidence of brain tumours was observed in the progeny of treated males compared with the controls. The incidence of thyroid tumours was significantly higher in controls but this difference disappeared when adjustment was made for litter effect and intralitter dependence.     

The central histamine level in rat model of vascular dementia

The histaminergic system plays an important role in memory and learning. Deficient histaminergic transmission in the human brain in vascular dementia (VD) has been suggested. To get a better insight into the problem, a rat model of VD based on permanent bilateral occlusion of the common carotid arteries (BCCAO) leading to chronic cerebral hypoperfusion was used. Prior to the BCCAO, male Wistar rats underwent 7 days training and only those animals that positively passed the holeboard memory test were chosen for the study. The rats which were operated on were injected i.p. daily for 6 days with either a monoamine oxidase B inhibitor - PF9601N (40 mg/kg), an acetycholinesterase inhibitor - tacrine (3 mg/kg), a histamine H(3) receptor blocker - DL76 (6 mg/kg) or saline. The first retest (R1) was performed one week after the surgery while each subsequent test was 5-7 days apart. The rats were euthanized 2 or 4 weeks following the operation. The concentration of brain histamine (HA) and the activity of histamine metabolising enzymes were measured using current procedures. The BCCAO drastically increased latency and run time (p<0.001) 54 ± 30 vs. 3.4 ± 1.2 and 268 ± 18 vs. 74 ± 9, respectively, and affected working memory rather than reference memory as measured by the 1(st) retest (R1). Treatment with either PF9601N or tacrine seems to exert a positive effect on working memory. This tendency disappeared after the drug treatment stopped. Latency and run time, although they improved in R2-R4, never attained the preoperative values. The brain tissues from rats treated with PF9601N showed only 15% and 50% of untreated rat MAO B and MAO A activity, respectively, despite the drug administration having been discontinued for 3 weeks. Other drugs examined did not influence MAO enzymes. Neither did histamine N-methyltransferase activity show changes related to BCCAO nor to the treatments. The hypothalamic HA concentration was significantly reduced after BCCAO: 1.13 ± 0.1 vs. 1.91 ± 0.16. Noteworthy, the rats treated with PF9601N or DL76 had brain HA levels not significantly different from their intact counterparts. The rat vascular dementia model supports deficiency in histaminergic system in VD.     

Chronic exposure to a 1.439 GHz electromagnetic field used for cellular phones does not promote N-ethylnitrosourea induced central nervous system tumors in F344 rats

The present study was designed to evaluate whether a 2 year exposure to an electromagnetic field (EMF) equivalent to that generated by cellular phones can accelerate tumor development in the central nervous system (CNS) of rats. Brain tumorigenesis was initiated by an intrauterine exposure to N-ethylnitrosourea (ENU) on gestational day 18. A total of 500 pups were divided into five groups, each composed of 50 males and 50 females: Group 1, untreated control; Group 2, ENU alone; Groups 3-5, ENU + EMF (sham exposure and 2 exposure levels). A 1.439 GHz time division multiple access (TDMA) signal for the Personal Digital Cellular (PDC), Japanese standard cellular system was used for the exposure of the rat head starting from 5 weeks of age, 90 min a day, 5 days a week, for 104 weeks. Brain average specific absorption rate (SAR) was 0.67 and 2.0 W/kg for low and high exposures, respectively: whole body average SAR was less than 0.4 W/kg. There were no inter-group differences in body weights, food consumption, and survival rates. No increase in the incidences or numbers per group of brain and/or spinal cord tumors, either in the males or females, was detected in the EMF exposed groups. In addition, no clear changes in tumor types were evident. Thus, under the present experimental conditions, 1.439 GHz EMF exposure to the heads of rats for a 2 year period was not demonstrated to accelerate or affect ENU initiated brain tumorigenesis.     

Genotoxicity of TiO(2) anatase nanoparticles in B6C3F1 male mice evaluated using Pig-a and flow cytometric micronucleus assays

In vivo micronucleus and Pig-a (phosphatidylinositol glycan, class A gene) mutation assays were conducted to evaluate the genotoxicity of 10 nm titanium dioxide anatase nanoparticles (TiO(2)-NPs) in mice. Groups of five 6-7-week-old male B6C3F1 mice were treated intravenously for three consecutive days with 0.5, 5.0, and 50 mg/kg TiO(2)-NPs for the two assays; mouse blood was sampled one day before the treatment and on Day 4, and Weeks 1, 2, 4, and 6 after the beginning of the treatment; Pig-a mutant frequencies were determined at Day -1 and Weeks 1, 2, 4 and 6, while percent micronucleated-reticulocyte (%MN-RET) frequencies were measured on Day 4 only. Additional animals were treated intravenously with three daily doses of 50 mg.kg TiO(2)-NPs for the measurement of titanium levels in bone marrow after 4, 24, and 48 h of the last treatment. The measurement indicated that the accumulation of the nanoparticles reached the peak in the tissue 4 h after the administration and the levels were maintained for a few days. No increase in either Pig-a mutant frequency of the frequency of %MN-RETs was detected, although the %RETs was reduced in the treated animals on Day 4 in a dose-dependent manner indicating cytotoxicity of TiO(2)-NPs in the bone marrow. These results suggest that although TiO(2)-NPs can reach the mouse bone marrow and are capable of inducing cytotoxicity, the nanoparticles are not genotoxic when assessed with in vivo micronucleus and Pig-a gene mutation tests.     

Correlation of isonicotinic acid hydrazide infiltration across the blood-brain barrier to postnatal development in rats.

Changes in the isonicotinic acid hydrazide (INH) concentration in rat blood and brain were studied in correlation to postnatal development in groups of animals aged 21 and 42 days and 3 months. In the first part of the experiments, INH was administered intravenously to all the age groups in a dose of 100 mg/kg. In the second part, the dose was related to extracellular fluid volume, so that the 3-week-old rats were given 154 mg/kg, the 6-week-old animals 129 mg/kg and the 3-month-old animals 100 mg/kg. After a dose of 100 mg/kg, INH levels in the blood of 21-day-old rats were significantly lower than in 42-day-old and adult animals. The brain INH levels did not differ significantly. On relating the dose to the amount of extracellular fluid, there were no significant differences in the blood INH levels, but the levels in the brain of 21- and 42-day-old rats were significantly higher than in 3-month-old animals. Blood volume related to body weight and brain weight did not differ in the various age groups. The authors conclude that the blood-brain barrier for isonicotinic acid hydrazide alters in rats during postnatal development. In young animals (21- and 42-day-old), more INH infiltrates into the CNS than in adult animals.