M. L. Broccia

Antifungal triazoles induce malformations in vitro

Triazole-derivatives are antimycotics used in agriculture as well as in clinical and veterinary therapy. The aim of the present work is the in vitro comparative study of the teratogenic activity of triazole (the parental compound), flusilazole (an agricultural triazole mono-derivative fungicide), and fluconazole (a clinically used bis-triazole derivative). Rat embryos, 9.5 days old (1 to 3 somites) were exposed in vitro to triazole 500 to 5000 microM, flusilazole 3.125 to 250 microM, or fluconazole 62.5 to 500 microM. After 48 h in culture, the embryos were morphologically examined and processed for histologic and biochemical analysis. Flusilazole and fluconazole showed similar teratogenic effects (abnormalities at the branchial apparatus level and cell death at the level of the branchial mesenchyme) at concentration levels of 6.25 microM and higher for flusilazole and of 125 microM and higher for fluconazole. By contrast, only slight developmental retardation and blood discoloration were observed at the highest concentrations of triazole, suggesting no teratogenic activity for the triazole group.

Effects of ethanol and acetaldehyde on rat embryos developing in vitro

SummaryRat embryos were explanted on Days 9.5 or 10 of gestation and cultured for 48 to 30h, respectively, in rat serum containing 0, 3, 6, 9 mg/ml of Ethanol (Eth); 0, 10, 20 µg/ml of Acetaldehyde (Ach); 3 mg/ml Eth + 10 µg/ml Ach. At the end of the culture period the embryos were evaluated for vitality, and scored. Some of them were also examined histologically. Embryos exposed to Eth from Day 9.5 showed a dose-related growth retardation associated with a high frequency of malformations (open neural tube, heart defects, branchial arch hypoplasia). The exposure of 9.5-day embryos to 20 µg/ml Ach resulted in 100% embryolethality, whereas 10 µg/ml induced growth retardation and teratogenic effects. When 10-day embryos were exposed to 3 mg/ml Eth or 10 µl/ml Ach no effects were observed, but the highest levels of Eth produced a moderate growth retardation and morphologic defects. Exposure to 20 µg/ml Ach induced hypoplasia of the first arch, but did not alter the score value. The histologic examination of these embryos revealed severe lesions at the level of the neuroepithelium and of the branchial mesenchyma. Similar effects were observed in embryos exposed simultaneously to 3 mg/ml Eth and 10 µg/ml Ach. These results should make us reevaluate the role of Ach in the Eth-induced embryopathies.

Molecular mechanism of teratogenic effects induced by the fungicide triadimefon: study of the expression of TGF-β mRNA and TGF-β and CRABPI proteins during rat in vitro development.

Azole derivatives are teratogenic in rats and mice in vitro and in vivo. The postulated mechanism for the dysmorphogenetic effects is the inhibition of retinoic acid (RA)-degrading enzyme CYP26. Azole-related abnormalities are confined to structures controlled by RA, especially the neural crest cells, hindbrain, cranial nerves, and craniofacial structures, through a complex signal cascade. The aim of this work is to study the expression of signal molecules activated by RA (TGF-betas) or involved in the modulation of cellular RA concentrations (CRABPI). E9.5 (9.5 day post coitum old embryos) rat embryos, exposed in vitro to triadimefon (FON) for 24 h, were examined or cultured in normal serum for extra 4, 16, and 24 h. RT-PCR was performed to quantify TGF-beta1, TGF-beta2, TGF-beta3, TGF-betaRI, TGF-betaRII, and TGF-betaRIII mRNA in the hindbrain after 24 h of culture. TGF-beta1, TGF-beta2, and TGF-betaRI were found significantly decreased by FON exposure, and consequently their protein expression was analyzed by Western blot and immunohistochemistry. In both controls and FON-exposed embryos, TGF-beta1 and TGF-betaRI were detected at 24 and 24+4 h; TGF-beta2 was present only at 24 h. Only TGF-beta1 was expressed at the level of hindbrain and branchial tissues. After quantization, TGF-beta1 was reduced in the FON group. The expression of CRABPI was observed at all developmental stages. However, in FON-exposed embryos, it was increased at 24 and 24+4 h. The hindbrain distribution of CRABPI-positive cells was abnormal in FON-exposed embryos. The results show that the two RA-related molecules (TGF-beta1 and CRABPI) are altered by FON exposure in vitro.

Comparative in vitro study of the embryotoxic effects of three glycol ethers and their metabolites, the alkoxyacids

Although the teratogenic potential of some glycol ethers and their active metabolites, the alkoxyacids, is well known, a comparative in vitro study of the embryotoxic potential of such compounds has not yet been conducted. The present study investigates the relationship between chemical structure and embryotoxicity of three glycol ethers (methoxy-, ethoxy- and butoxyethanol) and their corresponding alkoxyacids on the development of 9.5-day-old rat embryos cultured over 48 hr. The embryotoxic activity of the alkoxyacids was found to be higher than that of the corresponding ethers. Alkoxyacid embryotoxicity decreased with increasing length of the alkoxy chain, while the ether embryotoxicity increased with chain length. These data emphasize the need for a good knowledge of the metabolism of chemicals and the use of appropriate metabolic systems for reliable evaluation of results deriving from in vitro studies.

TERATOLOGIC EVALUATION OF p-DICHLOROBENZENE IN THE RAT

p-Dichlorobenzene (p-DCB) is a significant environmental chemical largely used as a moth repellent, space deodorant and fungicide. Long term rodents studies did not demonstrate carcinogenic potential after inhalation exposure levels up to 500 ppm. Teratogenic study in rats exposed to atmospheric concentrations of 75,200 or 500 ppm did not reveal embryotoxic, fetotoxic or teratogenic effects; furthermore p-DCB was not teratogenic or fetotoxic in rabbits are exposure levels up to 800 ppm by inhalation. The purpose of this study was to assess the teratogenic potential of p-DCB by a different route from that of inhalation, allowing higher levels of exposition. Pregnant rats were exposed p-DCB by gavage.

Effect of method of administration on the teratogenicity of dinoseb in the rat.

The herbicide dinoseb (DNB) was administered to pregnant CD rats during the organogenetic period (days 6–15 of gestation) by gastric intubation with the following methods: a) 2.5; 5; 10 or 15 mg/kg dissolved in corn oil and given once a day; b) 7.5 or 10 mg/kg in corn oil given twice a day; c) 15 mg/kg in 1N NaOH titrated to pH 7 with HC1 given once a day. These treatments induced maternal toxicity and embryotoxicity (reduced fetal weight and increased frequency of extra ribs) at the highest doses with no teratogenic effects. However, the administration of DNB in the diet resulted in a specific teratogenic effect (microphthalmia) at a dose level (200 ppm) which also induced maternal toxicity. These results leave open the question of the proper way of administration to be used in teratology studies.

In Vitro Embryotoxicity Study of N,N-Dimethylacetamide and its Main Metabolite N-Monomethylacetamide

N,N-Dimethylacetamide (DMAC) is a widely used industrial solvent. Previous teratological studies in vivo reported discording results. Using the postimplantation rat whole embryo culture (WEC) method, the direct embryotoxic effects of DMAC and its main metabolite (N-monomethylacetamide, MMAC) have been investigated in the present work. Both chemicals showed specific embryotoxic and teratogenic effects at similar concentration levels. The no-observed-effect level (NOEL) was 0.85mm.Macroscopically, the main target organs were somites, brain and branchial bars. Histological examination revealed an increase in cell death at the effective concentrations on the neuroepithelium and branchial bars mesenchyme. The results of this work, together with those obtained in in vivo studies, suggest that the exposure limits in workplaces could be inappropriate for the safety of fertile women.

Glutathione and N-acetylcysteine protection against acetaldehyde embryotoxicity in rat embryos developing in vitro

Previous in vitro studies demonstrated that acetaldehyde (ACHO) is able to produce specific morphological alterations related to the foetal alcohol syndrome. Intracellular reduced glutathione (GSH) has been shown to modulate the embryotoxicity elicited by various chemicals in vivo and in vitro. The present study evaluates the role played by endogenous and exogenous GSH and its precursor N-acetylcysteine (NAC) on the embryotoxicity induced by ACHO using the rat whole embryo culture system. In the first experiment embryos at gestation day (GD) 9.5 were cultured in rat serum medium for 18 hr in the presence of 1 mm l-buthionine-S,R-solfoximine (BSO), a specific inhibitor of GSH synthesis. Following pretreatment, conceptuses were cultured for a further 30 hr in the presence of 30 mug ACHO/ml. Pretreatment with BSO significantly enhanced the embryotoxic effects of ACHO and markedly reduced the GSH level only in the yolk sac. In the second experiment GSH or NAC (8 mum) were added to the medium by two different procedures in an attempt to reduce ACHO-induced embryotoxicity. In one case the embryos were exposed to ACHO for 8 hr and then transferred to media containing NAC or GSH for the remaining time of culture (22 hr); in another, the embryos were maintained for the entire culture period (30 hr) in a medium containing ACHO plus NAC or GSH. Only in the first case did exposure to NAC significantly reduce the frequency of abnormal embryos; in the second case the concurrent exposure to ACHO and thiols only marginally reduced ACHO-induced effects. Significant variations in the GSH content were recorded only at the level of the yolk sac. This result suggests that the yolk sac GSH can play a major role in the protection of the embryo against the toxic effects produced by xenobiotics.

Comparative embryotoxicity of four anthracyclines: In Vitro study on their effects on glutathione status

The embryotoxicity of four different anthracyclines [doxorubicin (DOXO), epirubicin (EPI), daunorubicin (DAUNO) and idarubicin (IDA)] was compared using the postimplantation whole embryo culture method. Moreover, to investigate the role of free oxygen radical production in anthracycline-induced embryotoxicity, the reduced glutathione (GSH) status in embryos and extraembryonic membranes was measured. Rat embryos (1-3 somite stage) were cultured for 48 hr in heat-inactivated rat serum containing DOXO, EPI or DAUNO (0.025, 0.05, 0.075 or 0.1 muM) or IDA (0.0125, 0.025 or 0.05 muM). At the end of the culture period, the embryos were examined morphologically and processed for histological or biochemical examination. DOXO, EPI and DAUNO were found to have similar embryotoxic potential [the no-observed-effect level (NOEL) was 0.025 muM], whereas IDA had a greater effect (NOEL = 0.0125 muM). The primary target organ was identified macroscopically and microscopically for all compounds in the mesenchyme of the caudal region. No relationship was identified between embryonic or extraembryonic GSH content reduction and anthracycline-induced embryotoxicity, suggesting only a marginal role of free oxygen radical formation in anthracycline-related embryotoxic mechanisms.

In vitro development of rat embryos obtained from diabetic mothers

Rat embryos of 9.5 or 10 days of gestation were removed from control or streptozotocin-diabetic mothers and cultured in normal rat serum (180 mg% glucose) or in diabetic serum (600 mg% glucose). The development of control embryos in normal serum was adequate. Embryos from normal mothers cultured in diabetic serum showed signs of developmental retardation. The development of embryos obtained from diabetic mothers was severely impaired, regardless of the gestational age or the culture medium. These results suggest that a diabetic maternal milieu produces irreversible effects in the embryo very early in gestation.