Assays to predict the genotoxicity of the chromosomal mutagen etoposide -- focussing on the best assay

The topoisomerase II inhibitor etoposide is used routinely to treat a variety of cancers in patients of all ages. As a result of its extensive use in the clinic and its association with secondary malignancies it has become a compound of great interest with regard to its genotoxic activity in vivo. This paper describes a series of assays that were employed to determine the in vivo genotoxicity of etoposide in a murine model system. The alkaline comet assay detected DNA damage in the bone marrow mononuclear compartment over the dose range of 10--100mg/kg and was associated with a large and dose dependent rise in the proportion of cells with severely damaged DNA. In contrast, the bone marrow micronucleus assay was found to be sensitive to genotoxic damage between the doses of 0.1--1mg/kg without any corresponding increases in cytotoxicity. An increase in the mutant frequency was undetectable at the Hprt locus at administered doses of 1 and 10mg/kg of etoposide, however, an increase in the mutant frequency was seen at the Aprt locus at these doses. We conclude that the BMMN assay is a good short-term predictor of the clastogenicity of etoposide at doses that do not result in cytotoxic activity, giving an indication of potential mutagenic effects. Moreover, the detection of mutants at the Aprt locus gives an indication of the potential of etoposide to cause chromosomal mutations that may lead to secondary malignancy.     

Niacin deficiency increases spontaneous and etoposide-induced chromosomal instability in rat bone marrow cells in vivo

Poly(ADP-ribose) polymerase (PARP) binds to DNA single and double strand breaks and uses NAD in the synthesis of poly(ADP-ribose) (pADPr). Niacin deficiency in rats decreases bone marrow NAD(+) and limits pADPr synthesis in response to DNA damage, while pharmacological supplementation with nicotinic acid (NA) increases bone marrow NAD(+) and pADPr. The purpose of this study was to determine if niacin status alters the extent of DNA damage and chromosomal instability before and after treatment with the chemotherapy drug etoposide (ETO). Genotoxicity was evaluated using the comet, micronucleus and sister chromatid exchange (SCE) assays. Male Long-Evans rats were fed niacin deficient (ND), or pair-fed (PF) niacin replete (30mg niacin/kg) or NA supplemented (4g niacin/kg) diets for 3 weeks. Rats were gavaged with ETO (1-25mg/kg) suspended in corn oil or an equal volume of vehicle (CON). Comet analysis demonstrated that ETO-induced DNA damage (mean tail moment (MTM) and proportion of cells with significant damage) was greater in bone marrow cells from ND rats, compared to PF or NA rats. Surprisingly, niacin deficiency alone caused 6.2- and 2.8-fold increases in spontaneous micronucleus formation and SCE frequency, respectively. As expected, ETO treatment increased the level of micronuclei (MN) and SCEs in all diet groups; however, the absolute increases were greater in ND bone marrow. These data show that niacin is required for the maintenance of chromosomal stability and may facilitate DNA repair in vivo, in a tissue that is sensitive to niacin depletion and impaired pADPr metabolism. Pharmacological intakes of niacin do not appear to be further protective compared to adequate intakes. Niacin supplementation may help to protect the bone marrow cells of cancer patients with compromised nutritional status from the side effects of genotoxic chemotherapy drugs.     

88例卵巢上皮性癌行ATP-TCA体外药敏试验结果分析

该研究是探讨三磷酸腺苷生物荧光肿瘤抗癌药物药敏性分析实验（ATP-TCA）在卵巢癌患者化疗中的应用。研究选取88例卵巢上皮性癌新鲜组织行ATP-TCA体外药敏试验,分析结果、计算各种化疗药物敏感性,并与48例对照组患者进行临床近期有效率的比较。结果显示,在体外药敏试验敏感性最强的单药为紫杉醇（51.9%）,敏感性强弱依次为：紫杉醇〉卡铂〉顺铂〉吉西他滨〉拓泊替康〉多西他赛〉依托泊苷〉环磷酰胺〉博来霉素,联合用药方案敏感性较单药增加。药敏组患者临床近期有效率（85.23%）高于对照（68.75%）。ATP-TCA是一种有效的抗癌药物敏感性分析实验,可为卵巢癌患者临床化疗提供个体化的指导方案。     

Mice primed with swainsonine are protected against doxorubicin-induced lethality.

The anthracycline, doxorubicin is a potent cancer chemotherapeutic agent whose therapeutic usefulness is limited by both a dose- and time-dependent cardiomyopathy. We tested the ability of an immunomodulatory alkaloid swainsonine (8alphabeta-indolizidine-1alpha,2alpha,8beta-triol) to protect C57BL/6 mice against lethality within 70 days following a single bolus intraperitoneal injection of LD50/14 doxorubicin. Also, we sought the potential mechanisms responsible for this protection. This extended 70-day study in mice, which may be considered equivalent to a period of 4 to 5 years in humans, has clinical implication for delayed cardiotoxic sequela of therapy with high dose doxorubicin. Mice were pretreated with swainsonine or its diluent buffer, phosphate buffered saline for ten consecutive days prior to a single bolus intraperitoneal injection of a LD50/14 doxorubicin. We have previously defined this swainsonine pretreatment regimen as one of the two optimal conditions for swainsonine rescue of mice from death induced by LD50/14 doxorubicin. The survival and well being of groups of mice pretreated with swainsonine and phosphate buffered saline prior to LD50/14 doxorubicin, sham-treated and untreated were monitored daily for up to 70 days. The bone marrow cellularity of the mice were quantified, and in vitro progenitor cell assays were used to determine the effects of these treatment regimens on bone marrow competence following doxorubicin treatment. The effects of these treatment regimens on heart morphology and hematologic toxicities were also determined. This swainsonine pretreatment regimen significantly abrogated doxorubicin-induced lethality and prolonged survival of mice by facilitating restoration of bone marrow cellularity, accelerating restoration of blood hematocrit and total leukocyte levels, enhancing the proliferation and differentiation of bone marrow pluripotent stem cells along the different paths to progenitor lineages, and preserving the heart morphology. This study strongly suggests a potential role for swainsonine with doxorubicin in cancer chemotherapy.     

Comparative in vitro and in vivo assessment of genotoxic effects of etoposide and chlorothalonil by the comet assay.

The alkaline single cell gel electrophoresis (comet) assay was used to assess in vitro and in vivo genotoxicity of etoposide, a topoisomerase II inhibitor known to induce DNA strand breaks, and chlorothalonil, a fungicide widely used in agriculture. For in vivo studies, rats were sacrificed at various times after treatment and the induction of DNA strand breaks was assessed in whole blood, bone marrow, thymus, liver, kidney cortex and in the distal part of the intestine. One hour after injection, etoposide induced DNA damage in all organs studied except kidney, especially in bone marrow, thymus (presence of HDC) and whole blood. As observed during in vitro comet assay on Chinese hamster ovary (CHO) cells, dose- and time-dependent DNA effects occurred in vivo with a complete disappearance of damage 24 h after administration. Even though apoptotic cells were detected in vitro 48 h after cell exposure to etoposide, such a result was not found in vivo. After chlorothalonil treatment, no DNA strand breaks were observed in rat organs whereas a clear dose-related DNA damage was observed in vitro. The discrepancy between in vivo and in vitro models could be explained by metabolic and mechanistic reasons. Our results show that the in vivo comet assay is able to detect the target organs of etoposide and suggest that chlorothalonil is devoid of appreciable in vivo genotoxic activity under the protocol used.     

Etoposide differentially affects bone marrow and dermal derived endothelial cells

Chemotherapy alteration of the bone marrow microenvironment has the potential to influence hematopoietic recovery following transplantation. To discern the effect of specific drugs on components of the complex marrow microenvironment, in vitro models have significant utility. In the current study we sought to determine whether dermal (HMEC-1) and marrow derived endothelial cells (BMEC-1) respond differently to identical chemotherapy exposure. BMEC-1 cells were consistently more sensitive to etoposide exposure than HMEC-1 cells, measured as reduced viability. BMEC-1 also had reduced focal adhesion kinase (FAK) and VCAM-1 protein expression following chemotherapy, in contrast to dermal derived endothelial cells in which neither protein was influenced dramatically by etoposide. The two endothelial cell lines had markedly different levels of baseline VE-Cadherin protein, which was modestly altered by treatment. These data indicate that marrow derived endothelial cells have disruption of specific proteins following chemotherapy that may influence their ability to facilitate hematopoietic cell entry or egress from the marrow. In addition, these observations suggest that while BMEC-1 and HMEC-1 share a variety of characteristics, they differ significantly in their response to stress and should be incorporated into specific models with this consideration.     

Does the Chemotherapy Backbone Impact on the Efficacy of Targeted Agents in Metastatic Colorectal Cancer? A Systematic Review and Meta-Analysis of the Literature

ImportanceThe EGFR inhibitors (EGFR-I) cetuximab and panitumumab and the angiogenesis inhibitors (AIs) bevacizumab and aflibercept have demonstrated varying efficacy in mCRC.ObjectiveTo document the overall impact of specific chemotherapy regimens on the efficacy of targeted agents in treating patients with mCRC. Data sources: MEDLINE, EMBASE and Cochrane databases were searched to 2014, supplemented by hand-searching ASCO/ESMO conference abstracts.ResultsEGFR-I added to irinotecan-based chemotherapy modestly improved OS with HR 0.90 (95% CI 0.81–1.00, p = 0.04), but more so PFS with HR 0.77 (95% CI 0.69–0.86, p<0.00001). No benefit was evident for EGFR-I added to oxaliplatin-based chemotherapy (OS HR 0.97 (95% CI 0.87–1.09) and PFS HR 0.92 (95% CI 0.83–1.02)). Significant oxaliplatin-irinotecan subgroup interactions were present for PFS with I² = 82%, p = 0.02. Further analyses of oxaliplatin+EGFR-I trials showed greater efficacy with infusional 5FU regimens (PFS HR 0.82, 95% CI 0.72–0.94) compared to capecitabine (HR 1.09; 95% CI 0.91–1.30) and bolus 5FU (HR 1.07; 95% CI 0.79–1.45); subgroup interaction was present with I² = 72%, p = 0.03. The oxaliplatin-irinotecan interaction was not evident for infusional 5FU regimens. For AIs, OS benefit was observed with both oxaliplatin-based (HR 0.83) and irinotecan-based (HR 0.77) regimens without significant subgroup interactions. Oxaliplatin+AI trials showed no subgroup interactions by type of FP, whilst an interaction was present for irinotecan+AI trials although aflibercept was only used with infusional FP (I² = 89.7%, p = 0.002).

Conclusion and Relevance

The addition of EGFR-I to irinotecan-based chemotherapy has consistent efficacy, regardless of FP regimen, whereas EGFR-I and oxaliplatin-based regimens were most active with infusional 5FU. No such differential activity was observed with the varying chemotherapy schedules when combined with AIs.     

Genotoxicity of two anticancer drugs,gemcitabine and topotecan,in mouse bone marrow in vivo

In this study, the genotoxic effects of gemcitabine and topotecan were investigated in mouse bone marrow cells using the micronucleus and chromosomal aberration test systems. Gemcitabine increased the frequency of micronuclei, particularly at the median dose for the 24-, 36-, and 48-h sampling intervals. It had cytotoxic effects on the bone marrow and decreased the polychromatic/normochromatic erythrocyte ratio dose-dependently for all sampling intervals. Gemcitabine significantly decreased the mitotic index at the 24-h time point. It increased the number of abnormal cells and induced a significant increase in total chromosomal aberrations. For the 6-h sampling time, gemcitabine neither induced chromosomal aberrations nor reduced the mitotic index. Topotecan also induced high levels of micronuclei, particularly for the 24- and 36-h sampling times and it decreased the polychromatic/normochromatic erythrocyte ratio for all sampling intervals, which is indicative of bone marrow cytotoxicity. The bone marrow metaphase analysis showed that topotecan significantly elevated the number of abnormal metaphases and total chromosomal aberrations at 6 and 24h, in a dose-dependent manner. It also decreased the mitotic index for both sampling intervals. In conclusion, the results of this study indicate that the two chemotherapeutics gemcitabine and topotecan have cytotoxic and genotoxic effects in mouse bone marrow.     

The effect of medroxyprogesterone acetate on bone marrow and testis during cytotoxic chemotherapy

The effect of medroxyprogesterone acetate (MPA) on the mitotic activity of bone marrow and testis during chemotherapy was investigated experimentally in an animal study. A total of 120 male Swiss albino mice were included in this study. Six groups were formed, each consisting of 20 mice. Low-dose MPA (LD-MPA) (15 mg/kg), high-dose MPA (HD-MPA) (100 mg/kg), LD-MPA plus cyclophosphamide (CP) (65 mg/kg), HD-MPA plus CP (65 mg/kg), and CP (65 mg/kg) were administered to the test groups and no drug was administered to the control group. Bone marrow samples and testis were examined for mitotic activity rate (MAR) on days 0, 18, 22, 26, and 30. In groups with regimens containing CP, MAR of hematopoietic cells in bone marrow was suppressed significantly (p<0.05). There was no difference in MAR of hematopoietic cells in bone marrow between the groups given MPA or not (p>0.05). Mitotic activity rate of the testis cells was significantly suppressed in groups with regimens containing MPA (p<0.05). In conclusion, MPA inhibited mitotic activity of testis, but there was no effect on the mitotic activity of bone marrow. These data do not seem to confirm the hypothesis of a myeloprotective effect of MPA. This revised version was published online in July 2006 with corrections to the Cover Date.     

The Influence of Lentinan on the Capacity of Repair of DNA Damage and Apoptosis Induced by Paclitaxel in Mouse Bone Marrow Cells

The ability of the flavonoid lentinan (LAN) to enhance the repair of paclitaxel (PAC)‐induced DNA damage and apoptosis in mouse bone marrow cells was investigated. Moreover, the possible mechanism underlying this modulation was determined. LAN was neither genotoxic nor apoptogenic at doses equivalent to 1 or 2 mg/kg/day. Pretreatment of mice with LAN significantly enhances the repair of PAC‐induced DNA damage and bone marrow suppression in a dose dependent manner. Moreover, LAN affords significant protection against PAC‐induced apoptosis. A significant increase of reactive oxygen species and a decrease in reduced glutathione levels were observed after PAC treatment and prior administration of LAN before PAC challenge ameliorated these oxidative stress markers. Conclusively, our study provides, for the first time, that LAN enhances the repair of PAC‐induced DNA damage and apoptosis that resides, at least in part, on its ability to modulate the cellular antioxidant levels and consequently protect bone marrow cells from PAC genotoxicity. © 2013 Wiley Periodicals, Inc. J BiochemMol Toxicol 27:370‐377, 2013; View this article online at wileyonlinelibrary.com . DOI 10.1002/jbt.21499     

Comparative effects of chemotherapeutic agents on the growth and survival of human adrenal carcinoma cells in culture.

Adrenocortical carcinoma is an uncommon malignancy that is usually fatal within a short time after diagnosis. We have investigated the effects on the growth and survival of SW-13 human adrenal carcinoma cells in culture of some currently used and some potentially new agents in the treatment of adrenal cancer. Established drugs tested were mitotane, cisplatin, etoposide, 5-fluorouracil, and suramin. Other agents studied included adenine arabinofuranoside, cytosine arabinofuranoside, 2-methoxyestradiol, and paclitaxel. The most potent chemotherapeutic agents in this system were paclitaxel and 2-methoxyestradiol, with EC (50) of 1.8x10 (-8) and 3.3x10 (-7) M, respectively. Cytosine arabinofuranoside and cisplatin both had the same EC (50) of 7.0x10 (-7) M, and etoposide 1.1x10 (-6) M. All the other agents tested required much higher doses for effect, including mitotane, the current most commonly used chemotherapy for adrenal cancer, with an EC (50) of 3.3x10 (-4) M. These data suggest that paclitaxel, 2-methoxyestradiol, and cytosine arabinofuranoside should be further evaluated for their potential in the chemotherapy of adrenal carcinoma.     

Genotoxic studies in hypertensive and normotensive rats treated with amiodarone

Amiodarone, a benzofuran derivative, is a very effective antiarrhythmic medication, but has potential to cause side effects. Although its cytotoxicity potential is very well-known, there are few reports about its genotoxicity effects. Since amiodarone has not been investigated in genotoxicity studies, and the spontaneously hypertensive rat (SHR) is a well-characterized model for hypertension, the aim of the present study was to perform cytogenetic analysis on chromosome aberrations in bone marrow cells of SHRs and normotensive Wistar-Kyoto rats (WKYs) that received oral amiodarone treatment for 4 weeks. Amiodarone activity was also monitored using electrocardiograms. The presence of bradycardia in amiodarone-treated rats confirmed that this drug was really active. Metaphase analysis on bone marrow cells showed that there were significant differences in total chromosomal damage and percentage abnormal metaphase between WKY and SHR negative controls. In the SHR negative control, the frequencies of basal chromosomal aberrations and abnormal metaphases were significantly higher (p < 0.05). There were high numbers of chromosomal aberrations in all amiodarone-treated groups, compared with negative controls. In amiodarone-treated groups, the most frequent chromosomal aberration was chromatid breaks. More chromosomal aberrations were found in WKYs that received amiodarone, with a statistically significant difference in comparison with negative controls (p < 0.05). However, in SHR rats there was no significant difference between the amiodarone and negative groups regarding chromosomal damage induction. These results showed that treatment with amiodarone was genotoxic in WKYs, but not in SHRs. Further studies are needed to confirm whether amiodarone is genotoxic or efficient and harmless, among humans undergoing therapy.     

不同化疗方案对晚期非小细胞肺癌患者骨髓抑制及免疫功能的影响

目的:探讨不同化疗方案对晚期非小细胞肺癌患者骨髓抑制及免疫功能的影响。方法:选取2011年1月至2013年12月收治的130例晚期非小细胞肺癌患者,按照知情同意原则随机分为三组:NP(长春瑞滨+顺铂)组45例、GP(吉西他滨+顺铂)组43例、TP(紫杉醇+顺铂)组42例,分别于化疗前及化疗2个周期后检测患者的骨髓抑制及免疫水平。结果:三种化疗方案进行治疗后骨髓抑制水平由高到低排列为GP组、TP组、NP组,差异有统计学意义(P0.05);GP组血小板减少发生率高于其他两组,TP组白细胞下降发生率高于其他两组,差异有统计学意义(P0.05);三组患者化疗后的免疫功能指标均较化疗前低,差异有统计学意义(P0.05)。三种化疗方案进行治疗后免疫功能抑制水平由高到低排列为GP组、TP组、NP组,差异有统计学意义(P0.05)。结论:GP组患者血小板下降更明显,TP组白细胞下降更为明显,NP组对骨髓抑制及免疫功能抑制较缓和,更适于老年人,因此临床选择化疗方案时要综合考虑患者骨髓状况、免疫功能情况及年龄等。     

Genotoxic action of Luna Experience-SC 400 fungicide on rat bone marrow

Abstract

Background: Fungicides describe all chemicals used to control fungi that infect plants. Luna Experience SC-400 is a new line of fungicide that consist of Fluopyram and Tebuconazole.

Objective: In this study, We investigated the genotoxicty and cytotoxicty of Luna Experience-SC 400 using comet assay, micronucleus test and polychromatic erythrocytes number in rat bone marrow. The present study is the first report indicating the effects of genotoxic and cytotoxic of Luna experience SC-400 on rat bone marrow cells.

Material and Methods: We used three different doses (5mg/kg, 10mg/kg, 20mg/kg) of Luna Experience SC 400 at 48 h intervals during 30 days by gavage in rats.Genotoxicity was evaluated using comet assay and micronucleus test and cytotoxicity was measured the PCE/NCE rate in rat bone marrow.

Results: Based on these experimental results, we report that Luna Experience-SC 400 fungicide presents genotoxic and cytotoxic potential on rat bone marrow. There is a significant difference between negative control group and all the doses of Luna Experience-SC 400 (p?<?0.05) for comet assay and micronucleus. Even moderate and high doses of fungicides seem to have reached the values of almost positive control group for Genetic Damage Index (GDI) and Damaged Cell Percentage (DCP). In this study, we also investigated the PCE/NCE rate. Fungicide caused a decrease in the level of significant in the PCE/NCE ratio (p?<?0.05).

Conclusion: Our in vivo study suggests that the gavage exposure to Luna experience SC 400 used in the present investigation may be genotoxic and cytotoxic in rat bone marrow in view of these findings. Because this findings is first report represented in the pesticide biology, it is important to carry out more investigations using various cytogenetic tests under different experimental conditions to definitively resolve the the possible genotoxic and cytotoxic risk associated with new generation pesticides-fungicides.     

Relations between chromosomal findings and prognosis in acute nonlymphoblastic leukemia (author's transl)]

In 48 patients with acute non-lymphoblastic leukemia, all of whom had been treated according to the protocol 7421 of the "acute leukemia group B", remission rates and survival times were correlated with the chromosome constitution of bone marrow cells at diagnosis. 45.8% of the patients had only normal metaphases (N-patients), 31.3% had normal and abnormal metaphases (AN-patients), and 22.9% had only abnormal metaphases (AA-patients). Chromosomal findings were unrelated to patients' age. The remission rate of the N-patients was 72.7%, of the AN-patients 60%, and of the AA-patients 36.4%. The respective median survival times were 12.5, 8.5 and 4.0 months. The difference in remission rates and survival times between patients with normal and without normal metaphases was significant. Once a remission had been obtained the prognosis was similar among the 3 groups. The better prognosis of the AA-patients in this study as compared to previous reports might be related to a more effective chemotherapy.     

Cytophotometry of granulocytes in chronic granulocytic leukaemia patients. Part II. Effects of chemotherapy on cell kinetics and cytochemical parameters of granulocytes

A successful course of chemotherapy (myelosan or combined regimens) results in a two to eight fold decrease of the percentage of S + G2 cells in the bone marrow and peripheral blood and in the restoration of normal morphometric and cytochemical patterns of polymorphonuclear neutrophils in the chronic phase of CGL. In those patients of the chronic phase not responding to chemotherapy and in blast crisis the proportion of S + G2 cells did not change after a course of chemotherapy. Cytostatic drugs killed cells in all phases of the cell cycle. The initial response to chemotherapy was a slight increase of the proportion of S + G2 cells in peripheral blood, apparently as a result of the block in cell cycle transition which was followed by a rapid drop of S + G2 proportion. During chemotherapy such phenomena as an appearance of tetraploid mature neutrophils and of aneuploid clones were occasionally observed.     

Inhibition of early murine hemopoietic progenitor cell proliferation after in vivo locoregional administration of transforming growth factor-beta 1

Transforming growth factor-beta 1 (TGF beta 1) has been shown in vitro to be a potent negative regulator of growth and differentiation of early hemopoietic progenitor cells, but not of more mature progenitors. However, little information is yet available regarding similar effects in vivo. We have developed an approach whereby TGF beta 1 can be administered locoregionally to the bone marrow via direct injection into the femoral artery. Our studies show that intrafemoral administration of a single bolus dose of TGF beta 1 potently inhibits the baseline and IL-3-driven proliferation of bone marrow cells. This inhibition is relatively selective for the earlier multipotential granulocyte, erythroid, megakaryocyte, and macrophage CFU progenitor cells since these are completely inhibited while the more differentiated CFU assayed in culture colonies are inhibited by about 50%. The inhibition of hemopoietic progenitor growth and differentiation is both time and dose dependent with the maximal effect on the marrow observed at 24 h with doses greater than or equal to 5 micrograms/mouse, and the effect is reversed at later times. A possible practical implication of these in vivo results could be the use of TGF beta 1 to protect stem cells in the bone marrow from the myelotoxic effects of chemotherapeutic drugs.     

Resonance in periodic chemotherapy: a case study of acute myelogenous leukemia

The effects of periodic chemotherapy administration are evaluated within the context of a G(0)model of the cell cycle. Parameters are estimated for normal bone marrow cells and malignant cells in acute myelogenous leukemia (AML). This model explicitly includes the resting G(0)phase and the feedback mechanism that recruits the cells back into the cell cycle. Periodic chemotherapy administration can induce resonance within our model under high cell kill rate where the average cell cycle times may change during the course of treatment, and therapeutic benefits from these resonances cannot be solely based on cell cycle times in untreated tissue. The depletion rate under chemotherapy and the regrowth rate may differ between the cell populations, and our analysis suggests that this favors the tumour cells. We were able to distinguish between the effects of cycle-non-specific, S -phase-specific and M -phase-specific drugs, and found that these can show differences in sharpness and location of the resonance phenomenon. We conclude that resonance chemotherapy (chronotherapy) is unlikely to be efficacious in the treatment of AML.     

Chromosomal abnormalities and sister-chromatid exchange in bone marrow cells of mice and Chinese hamsters after inhalation and intraperitoneal administration. II. Cyclophosphamide

The genotoxic effects of cyclophosphamide (CPP), a human and animal carcinogen requiring metabolic activation, were studied in bone marrow cells of mice and Chinese hamsters, analyzing chromosome abnormalities (CA) and sister-chromatid exchange (SCE) after a 2-h inhalation or a single intraperitoneal administration. In order to compare the genotoxicity after the different routes of administration in the dose range of 10-110 mg CPP/kg body weight, the systemic dose obtained by inhalation was calculated from blood concentrations and the inhalation duration after an analysis of the CPP blood kinetics. In NMRI mice the frequency of bone marrow cells with chromosome abnormalities was higher after aerosol exposure than after intraperitoneal administration of comparable CPP doses. In Chinese hamsters the CA frequency was similar with both exposure routes. Inhaled CPP was found to induce a higher frequency of CA and SCE in the bone marrow cells of mice compared to those of Chinese hamsters. The findings suggest that for genotoxins requiring metabolic activation species differences exist with respect to the influence of the route of entry and the sensitivity of bone marrow cells.