Mutation induction by N-propyl-N-nitrosourea in eight MutaMouse organs.

As a part of the 2nd Collaborative Study for the Transgenic Mouse Mutation Assay, we studied the organ specificity and the temporal changes in mutant frequency (MF) of the lacZ gene following intraperitoneal injection of 250 mg/kg N-propyl-N-nitrosourea into male MutaMouse. We used a positive selection system and examined eight organs, i.e., bone marrow, liver, kidney, lung, spleen, brain, heart, and testis. The chemical caused a significant increase in MF in all organs except for brain, and the bone marrow was the most sensitive organ, exhibiting a MF on day 7 that was 10 times that of the control. The MF increased from day 7 to day 28 in liver, kidney, and testis, while it decreased in bone marrow. The relationship between the results of this study and the target organs of carcinogenesis, and the cause of the temporal changes in MF, are discussed.     

Target organ and time-course in the mutagenicity of five carcinogens in MutaMouse: a summary report of the second collaborative study of the transgenic mouse mutation assay by JEMS/MMS.

We studied five carcinogens for (a) organ-specific mutagenicity and expression time in the transgenic (TG) mouse mutation assay and (b) clastogenicity in the peripheral blood micronucleus assay in the same mice. Groups of mice were injected intraperitoneally (ip) with N-nitroso-di-n-propylamine (NDPA), propylnitrosourea (PNU), 7, 12-dimethylbenz[a]anthracene (DMBA), 4-nitroquinoline-1-oxide (4NQO), or procarbazine (PCZ); 4NQO was also administered orally. LacZ mutant frequencies (MF) of various organs, sampled 7, 14 and 28 days after treatment, were analyzed by galE positive selection. At least 5 organs were analyzed in each experiment. Bone marrow, liver, and testis were always analyzed, as were each chemical's target organs. All chemicals, except NDPA, induced micronuclei. All chemicals increased lacZ MF in all of their target organs for carcinogenesis and, to a lesser extent, in some non-target organs. That suggests that an organ that has a positive response to a chemical in the TG mouse mutation assay is likely to develop tumors on exposure to that chemical, but it does not always happen. The time-course of MF increases (7-28 days) differed among tissues. In general, time-dependent increase in MF occurred in organs with a low cell proliferation rate whereas no increase, or even a decrease, occurred in organs with a high proliferation rate. Our results demonstrated that the TG mouse mutation assay is effective for the detection of chemical mutagenesis in the target organs for carcinogenesis, and organ and time-course variations in chemical mutagenesis are important issues for the establishment of an optimal protocol for the assay.     

In vivo genotoxicity of heterocyclic amines detected by a modified alkaline single cell gel electrophoresis assay in a multiple organ study in the mouse

We used a modification of the alkaline single cell gel electrophoresis (SCG) (Comet) assay to test the in vivo genotoxicity of 6 heterocyclic amines, Trp-P-1 (25 mg/kg), Trp-P-2 (13 mg/kg), IQ (13 mg/kg), MeIQ (13 mg/kg), MeIQx (13 mg/kg) and PhIP (40 mg/kg), in mouse liver, lung, kidney, brain, spleen, bone marrow and stomach mucosa. Mice were sacrificed 1, 3, and 24 h after intraperitoneal injection. Trp-P-2, IQ, MeIQ, and MeIQx yielded statistically significant DNA damage in the stomach, liver, kidney, lung and brain; Trp-P-1 in the stomach, liver and lung; and PhIP in the liver, kidney and brain. None of the heterocyclic amines induced DNA damage in the spleen and bone marrow. Our results suggest that the alkaline SCG assay applied to multiple organs is a good way to detect organ-specific genotoxicity of heterocyclic amines in mammals.     

Genotoxic potential of the organochlorine insecticide lindane (gamma-BHC): an in vivo study in chicks.

The purpose of this work was to evaluate the genotoxic potential of lindane (gamma-isomer of benzene hexachloride (BHC)) in chicken in vivo tests: the bone marrow chromosome aberration and micronucleus tests. With the highest dose (100 mg/kg) a significant enhancement of chromosome aberrations was noticed after 24 and 48 h and with the second highest dose (75 mg/kg) after 24 h. A significant increase in the incidence of micronuclei in bone marrow cells was induced by all three doses (100, 75 and 50 mg/kg) given either intraperitoneally or orally while in peripheral erythrocytes only the two higher intraperitoneal doses (100 and 75 mg/kg) gave significant increases. On the basis of these results, lindane may be considered genotoxic in this test system and it is suggested that the chick in vivo system may be used as an alternative to a mammalian system for screening environmental chemicals for genotoxicity.     

Procarbazine genotoxicity in the MutaMouse; strong clastogenicity and organ-specific induction of lacZ mutations.

Procarbazine, a drug used for cancer chemotherapy, is carcinogenic in rodent bioassays. We analyzed the mutagenicity of procarbazine in various organs and the clastogenicity of the drug in hematopoietic cells of the lacZ transgenic MutaMouse. This was part of the second collaborative study of the Mammalian Mutagenesis Study Group of the Japanese Environmental Mutagen Society on the transgenic mouse mutation assay. At 50 mg kg(-1), procarbazine induced micronuclei in hematopoietic cells, but it did not increase the lacZ mutant frequency (MF) in bone marrow. It was also negative in liver, testis, spleen, kidney, and lung. Five daily administrations of 150 mg kg(-1) yielded highly positive responses in the drug's target organs for carcinogenesis (lung, bone marrow, and spleen). Lower positive responses were detected in kidney, which is a minor target organ. Liver showed only a slight increase in lacZ MF and brain showed no increase. The testis MF more than doubled which suggest that procarbazine is mutagenic to germ cells. Thus, we demonstrated that procarbazine has a strong clastogenic effect in hematopoietic cells and is mutagenic in a variety organs after high dose treatment. The induced MF was especially high in procarbazine's target organs for carcinogenesis, which supports the relevance of the transgenic mouse mutation assay for the assessment of potential genotoxins in vivo.     

Mutagenicity of the human bladder carcinogen 4-aminobiphenyl to the bladder of Muta ™Mouse transgenic mice

The human carcinogen 4-aminobiphenyl (4AB) was evaluated in the Muta ™Mouse transgenic mouse mutation assay. A single oral dose of 75 mg/kg induced 6.9-, 1.8- and 2.2-fold increases in the mutation frequency (MF) in the bladder, liver and bone marrow, respectively. Ten daily oral doses of 10 mg/kg 4AB increased the MF in the bladder, liver and bone marrow by 13.7-, 4.8- 2.4-fold the control value, respectively. The repeat dosing protocol was therefore more sensitive than the single dose protocol. Assessment of DNA samples prepared from pooled liver homogenates clearly indicated the increase in MF observed in the individual liver samples obtained from both groups of 4AB-treated mice.     

Clastogenic activity of urethane in mice.

Single intraperitoneal (i.p.) treatment of male and female BDF1 (C57B1 x DBA2) mice with urethane (0.5 or 1.0 g/kg) caused a significant increase in micronucleated polychromatic erythrocytes (MNPCE) in bone marrow after 24 h. The clastogenic effect observed was dose-, sex- and age-dependent, the male and younger (6-8 weeks old) animals being more susceptible than the female and older (6 months of age) mice. 3-week oral treatment of female Balb/c mice with urethane (3 g/l added to the drinking water) caused an up to 4-fold increase in the number of micronucleated normochromatic erythrocytes (MNNCE) in mouse peripheral blood. In a month after the carcinogen treatment was stopped, the number of MNNCE dropped to the control values. In addition, a single i.p. treatment of pregnant BDF1 mice on day 17 of gestation with urethane (1.0 g/kg) caused a 514.3% (p less than 0.001) elevation of MNPCE in mouse fetal liver after 24 h as well as a 154.4% (p less than 0.05) increase in MNPCE frequency in the fetal peripheral blood. At this time point, the clastogenic response in mouse fetal liver erythroblasts was less pronounced than that detected in the maternal bone marrow cells. Urethane is a strong clastogen in mice when administered either intraperitoneally or orally and the micronucleus test applied to adult and fetal erythroblasts is a convenient method of choice for studying the acute and subchronic clastogenicity of this carcinogen, its transplacental effects as well as the influence of modifying factors on these processes.     

Induction of chromosome aberrations, micronucleus formation and sperm abnormalities in mouse following carbofuran exposure

Carbofuran was tested to study in vivo cytogenetic effects in mouse bone marrow cells and morphological alterations in sperms. The acute oral and intraperitoneal (i.p.) LD(50) of carbofuran was determined to be 9.5 or 2.0 mg/kg b.w. in mice, respectively. The animals were orally administered 1.9, 3.8 or 5.7 mg/kg b.w. (20, 40 and 60% of LD(50)) of carbofuran for 24 h or 1.9 mg/kg b.w. for 4 consecutive days (cumulative 7.6 mg/kg or 80% of LD(50)) to analyse chromosome aberrations (CAs). For micronucleus test (MT) animals were orally exposed to 5.7 mg/kg b.w. for 24 and 48 h or 1.9 mg/kg b.w. for 4 consecutive days. For reference mice were exposed to peanut oil (negative control) and cyclophosphamide (20 mg/kg) or ethyl methanesulfonate (EMS: 100 mg/kg) positive control for CAs and MT respectively. To analyse the effect on sperm morphology mice were exposed to single i.p. dose of 1 and 2 mg/kg b.w. of carbofuran and repeatedly to 0.5 mg/kg for 5 consecutive days. Cytogenetic analysis revealed that all the test doses induced mitotic inhibition, CAs, micronucleus (MN) formation and sperm abnormalities in a dose dependent manner. Present observations concurrent with earlier reports substantiate the genotoxic potential of carbofuran and possible risk to human beings.     

The micronucleus test of methyl methanesulfonate with mouse peripheral blood reticulocytes using acridine orange-coated slides.

The usefulness of the micronucleus assay using mouse peripheral blood erythrocytes and acridine orange (AO)-coated slides was evaluated with methyl methanesulfonate (MMS). The micronucleus test was carried out at doses ranging from 20 to 80 mg/kg body weight in CD-1 mice by intraperitoneal injection. Peripheral blood cells were examined from 0 to 72 h after treatment at 12- or 24-h intervals. Bone marrow cells from other mice treated with 80 mg/kg MMS were also sampled at the same times. The frequency of micronucleated reticulocytes (MNRETs) increased dose-dependently at every sampling time except 72 h, and the maximum frequency of MNRETs was observed at about 36 h after treatment. Micronucleated polychromatic erythrocytes (MNPCEs) in bone marrow after a dose of 80 mg/kg were significantly induced at 12 h to 36 h, and the maximum frequency of MNPCEs was observed at 24 h after treatment. The induction of MNRETs was delayed by about 12 h compared to that of MNPCEs in bone marrow, and the maximum frequencies of MNRETs were lower than those of MNPCEs, but the induction of MNRETs by MMS was significant and dose-dependent. It is concluded, therefore, that bone marrow cells could be replaced by peripheral blood cells as material for the micronucleus assay using AO-coated slides.     

Validation of the mouse peripheral blood micronucleus assay using acridine orange supravital staining with urethane.

The mouse peripheral blood micronucleus assay using acridine orange supravital staining was compared with the standard bone marrow assay using urethane (ethyl carbamate)-treated mice. Urethane was intraperitoneally injected to CD-1 and BDF1 mice at doses ranging from 62 to 1000 and 62 to 250 mg/kg, respectively. Peripheral blood was collected from the tail 0, 24, 48, and 72 h and bone marrow cells were smeared at 24 and 42 h after the treatment. Although the response of micronucleus induction in peripheral reticulocytes was delayed by about 24 h compared to that in bone marrow polychromatic erythrocytes, the maximum frequencies of micronucleated young erythrocytes were comparable. Therefore, the peripheral blood micronucleus assay using the acridine orange supravital staining method may provide a good alternative to the conventional bone marrow assay.     

Administration-route-related differences in the micronucleus test with benzene

The effect of route of administration on the outcome of the micronucleus test was studied in 2 laboratories by administering the model chemical benzene intraperitoneally (i.p.) and orally (p.o.) to 2 strains of mice: MS/Ae and CD-1. On the basis of results obtained in a small-scale acute toxicity study and in a pilot micronucleus test, full-scale micronucleus tests were performed with a 24-h sampling time at doses of 250, 500, 1000, and 2000 mg/kg i.p. and 500, 1000, 2000, and 4000 mg/kg p.o. In both strains of mice, a higher incidence of micronucleated polychromatic erythrocytes (MNPCEs) was observed after p.o. administration. The ratio of polychromatic erythrocytes (PCEs) to total erythrocytes decreased more markedly at higher doses i.p. in both strains. Thus, benzene induced more micronuclei via the p.o. route, while inhibitory effects on bone marrow cells were stronger after i.p. administration.     

Potentiation by caffeine of the frequencies of micronuclei induced by mitomycin C and cyclophosphamide in young mice

Employing the micronucleus test in mouse bone marrow and in fetal mouse liver, the possible clastogenicity of caffeine as well as its influence on MMC- and CP-induced micronucleus levels were studied. The treatment of male and female C57Bl or BDF1 (C57Bl x DBA2) mice with caffeine (1 or 3 x 50 mg/kg and 100 mg/kg, s.c.) had no clastogenic effect in mouse bone marrow or in the fetal livers and maternal bone marrow when pregnant mice were injected with caffeine on day 16-17 of gestation. MMC (2.0 mg/kg, i.p.) increased up to 10-30-fold the number of MNPCEs in bone marrow compared to a 3-7 fold elevation of MNPCEs in fetal liver. A similar effect was also established in pregnant mice treated with CP (30 mg/kg, i.p.). No significant sex differences in spontaneous and MMC- or CP-induced MNPCEs levels were established in C57Bl and BDF1 mice. However, a significantly higher spontaneous rate of MNPCEs as well as a better-expressed responsiveness to the clastogenic activity of MMC and CP were established in C57Bl compared to BDF1 mice. The pregnancy had no effect on MMC- or CP-induced clastogenicity although a tendency to a decreased sensitivity to the damaging activity of MMC seemed to be detected in pregnant C57Bl mice compared to virgin female animals. The combined treatment of mice with caffeine (3 x 100 mg/kg) and MMC or CP caused an up to 45-49% potentiation of clastogenesis in the bone marrow of male, female and pregnant female C57Bl and BDF1 mice but not in fetal mouse livers.     

Genotoxicity studies on the azo dye Direct Red 2 using the in vivo mouse bone marrow micronucleus test.

The clastogenicity of the azo dye Direct Red 2 (DR2) has been investigated using the murine bone marrow micronucleus assay. A potent dose-dependent response was observed following oral gavage of DR2 up to 4 mg/kg, after which significant toxicity to the erythroid compartment was observed. The route of administration had a significant effect on the frequency of micronucleus formation: intraperitoneal injection was approximately two-fold less clastogenic than the equivalent dose delivered orally (p<0.05). The requirement for activation of DR2 by intestinal microflora was indicated by the fact that mice given acid-treated water prior to administration of DR2 showed a significant reduction (40%; p<0.001) in micronucleated polychromatic erythrocyte formation. The implications of these findings for the health and safety of occupationally exposed workers are discussed.     

Validation of the mouse peripheral blood micronucleus assay using acridine orange supravital staining with urethane

The mouse peripheral blood micronucleus assay using acridine orange supravital staining was compared with the standard bone marrow assay using urethane (ethyl carbamate)-treated mice. Urethane was intraperitoneally injected to CD-1 and BDF₁ mice at doses ranging from 62 to 1000 and 62 to 250 mg/kg, respectively. Peripheral blood was collected from the tail 0, 24, 48, and 72 h and bone marrow cells were smeared at 24 and 42 h after the treatment. Although the response of micronucleus induction in peripheral reticulocytes was delayed by about 24 h compared to that in bone marrow polychromatic erythrocytes, the maximum frequencies of micronucleated young erythrocytes were comparable. Therefore, the peripheral blood micronucleus assay using the acridine orange supravital staining method may provide a good alternative to the conventional bone marrow assay.     

Clastogenic activity of urethane in mice

Single intraperitoneal (i.p.) treatment of male and female BDF1 (C57B1 × DBA2) mice with urethane (0.5 or 1.0 g/kg) caused a significant increase in micronucleated polychromatic erythrocytes (MNPCE) in bone marrow after 24 h. The clastogenic effect observed was dose-, sex- and age-dependent, the male and younger (6–8 weeks old) animals being more susceptible than the female and older (6 months of age) mice. 3-week oral treatment of female Balb/c mice with urethane (3 g/l added to the drinking water) caused an up to 4-fold increase in the number of micronucleated normochromatic erythrocytes (MNNCE) in mouse peripheral blood. In a month after the carcinogen treatment was stopped, the number of MNNCE dropped to the control values. In addition, a single i.p. treatment of pregnant BDF1 mice on day 17 of gestation with urethane (1.0 g/kg) caused a 514.3% (p < 0.001) elevation of MNPCE in mouse fetal liver after 24 h as well as a 154.4% (p < 0.05) increase in MNPCE frequency in the fetal peripheral blood. At this time point, the clastogenic response in mouse fetal liver erythroblasts was less pronounced than that detected in the maternal bone marrow cells. Urethane is a strong clastogen in mice when administered either intraperitoneally or orally and the micronucleus test applied to adult and fetal erythroblasts is a convenient method of choice for studying the acute and subchronic clastogenicity of this carcinogen, its transplacental effects as well as the influence of modifying factors on these processes.     

N-Nitrosodi-n-propylamine induces organ specific mutagenesis with specific expression times in lacZ transgenic mice.

The mutagenic and clastogenic effects of N-nitrosodi-n-propylamine (NDPA) in lacZ transgenic mice (MutaMouse) were investigated as a part of the second collaborative study of the transgenic mouse mutation assay by a subgroup of the Mammalian Mutagenesis Study Group, a suborganization of the Environmental Mutagen Society of Japan. Male MutaMouse mice were administered NDPA intraperitoneally at a dose of 250 mg/kg, which is half of the LD(50) of the compound. The clastogenicity of NDPA was examined by the peripheral blood micronucleus test just before and at 24, 48 and 72 h after the treatment. The mutant frequencies in the bone marrow, liver, lung, kidney and urinary bladder were examined by the positive selection method for lacZ kidney. These findings demonstrate that NDPA induces organ-specific mutagenesis with specific expression times, and that the mutagenicity of NDPA in lacZ transgenic mice is consistent with its carcinogenicity.     

The alkaline single cell electrophoresis assay with eight mouse organs: results with 22 mono-functional alkylating agents (including 9 dialkyl N-nitrosoamines) and 10 DNA crosslinkers

The genotoxicity of 22 mono-functional alkylating agents (including 9 dialkyl N-nitrosoamines) and 10 DNA crosslinkers selected from IARC (International Agency for Research on Cancer) groups 1, 2A, and 2B was evaluated in eight mouse organs with the alkaline single cell gel electrophoresis (SCGE) (comet) assay. Groups of four mice were treated once intraperitoneally at the dose at which micronucleus tests had been conducted, and the stomach, colon, liver, kidney, bladder, lung, brain, and bone marrow were sampled 3, 8, and/or 24 h later. All chemicals were positive in the SCGE assay in at least one organ. Of the 22 mono-functional alkylating agents, over 50% were positive in all organs except the brain and bone marrow. The two subsets of mono-functional alkylating agents differed in their bone marrow genotoxicity: only 1 of the 9 dialkyl N-nitrosoamines was positive in bone marrow as opposed to 8 of the 13 other alkylating agents, reflecting the fact that dialkyl N-nitrosoamines are poor micronucleus inducers in hematopoietic cells. The two groups of mono-functional alkylating agents also differ in hepatic carcinogenicity in spite of the fact that they are similar in hepatic genotoxicity. While dialkyl N-nitrosoamines produce tumors primarily in mouse liver, only one (styrene-7,8-oxide) out of 10 of the other type of mono-functional alkylating agents is a mouse hepatic carcinogen. Taking into consideration our previous results showing high concordance between hepatic genotoxicity and carcinogenicity for aromatic amines and azo compounds, a possible explanation for the discrepancy might be that chemicals that require metabolic activation show high concordance between genotoxicity and carcinogenicity in the liver. A high percent of the 10 DNA crosslinkers were positive in the SCGE assay in the gastrointestinal mucosa, but less than 50% were positive in the liver and lung. In this study, we allowed 10 min alkali-unwinding to obtain low and stable control values. Considering that DNA crosslinking lesions can be detected as lowering of not only positive but also negative control values, low control values by short alkali-treatment might make it difficult to detect DNA crosslinking lesions. In conclusion, although both mono-functional alkylating agents and DNA crosslinkers are genotoxic in mouse multiple organs, the genotoxicity of DNA crosslinkers can be detected in the gastrointestinal organs even though they were given intraperitoneally followed by the short alkali-treatment.     

Micronucleus test with procarbazine hydrochloride administered by intraperitoneal injection and oral gavage

The difference in effect of route of administration of procarbazine hydrochloride (PCZ) in the mouse was investigated in the micronucleus test. PCZ was administered by intraperitoneal injection (i.p.) and oral administration (p.o.) to 2 strains of male mice (MS/Ae and CD-1). On the basis of a small-scale acute toxicity test and a pilot micronucleus test, bone marrow preparations were prepared 24 h after the administration by the i.p. and p.o. routes of 50-400 mg/kg and 200-1600 mg/kg, respectively. The maximum incidence of polychromatic erythrocytes with micronuclei (MNPCEs) was somewhat higher after p.o. treatment in MS/Ae mice and the same with both routes in CD-1 mice. Thus, the clastogenicity of PCZ in mouse bone marrow was revealed by both routes.     

Captopril protects mice bone marrow cells against genotoxicity induced by gamma irradiation

The radioprotective effects of captopril were investigated by using the micronucleus test for anticlastogenic and cell proliferation activity. A single intraperitoneal administration of captopril at doses of 10, 25 and 50 mg/kg 1 h prior to gamma irradiation (2 Gy) reduced the frequencies of micronuleated polychromatic erythrocytes (MnPCEs). All three doses of captopril significantly reduced the frequencies of MnPCEs and increased polychromatic erythrocytes (PCE)/PCE+NCE (normochromatic erythrocyte) ratio in mice bone marrow compared to the non-drug-treated irradiated control (p < 0.001). The optimum dose for protection in mouse was 10 mg/kg to protect mice bone marrow 2.18-fold against the clastogenic effects of gamma-irradiation with respect to the non-drug-treated irradiated control. There was a drug dose-response effect of captopril in increasing the PCE/PCE+NCE ratio in bone marrow cells. The maximum protective effect of captopril was at a dose of 25 mg/kg for increasing the PCE/PCE + NCE ratio. Captopril exhibited concentration-dependent antioxidant activity, scavenging > 96% of the 1,1-diphenyl-2-picryl hydrazyl free radicals when used at a concentration of 0.2 mM. In this study captopril reduced lipid peroxidation induced by hydrogen peroxide in mice liver. It appears that captopril, due to its free radical scavenging properties, protects mice bone marrow cells from radiation-induced DNA damage and genotoxicity.     

Efficacy of Saudi propolis and bee pollen in the reduction of oxidative stress induced with CCl4 in a testis mice model

Low testosterone levels are caused by alcoholism, cigarette smoking, and exposure to toxic chemicals. This work focused on investigating the activities of propolis (PE) and bee pollen (BPE) extracts in reducing the oxidative stress of carbon tetrachloride (CCl4) in male mice models. The 48 male Swiss Albino mice weighed 27.5 ± 2.5 g and were divided into: Group1: Control (-) received distilled water only through oral intubation; Group 2: Control (- -) received corn oil by intraperitoneal (i.p.) injection once a day; Group 3: Control (+) received a sublethal dose of CCL4 intraperitoneally the end of the experiment. Group 4: Stander treated with silymarin at a daily dose of 200 mg/kg orally. Group 5: The mice were given 8.4 mg/ kg bw of (PE) orally. Group 6: The mice were given (BPE) extract (140 mg/kg bw) orally. After five consecutive days of treatment, all mice had testis injury in all groups except G1& G2, by a single i.p injection of CCL4 at a dose of 0.5 mL/kg (bw; 20% v/v in corn oil). The result showed a significant increase in luteinizing, follicle-stimulating, and testosterone hormone levels in the serum and semen parameters in the groups treated with PE and BPE. The histological results showed the greatest improvements in testis structures in the BPE group, which was confirmed using (Bcl-2; immunohistochemistry). These results suggest an important role of the antioxidative effects of PE and BPE in the attenuation of CCl4 oxidative stress.