Role of biotransformation in the in vitro preimplantation embryotoxicity of naphthalene

The in vitro developmental toxicity of the bicyclic aromatic hydrocarbon naphthalene was characterized with a preimplantation mouse embryo culture system. Day 3 ICR mouse blastocysts were co-cultured with naphthalene for 1 h either alone or in media supplemented with an Aroclor-induced rat S-9 preparation and cofactors. Toxin-treated blastocysts were subsequently cultured in NCTC 109 media with 10% fetal bovine serum for 72 h to observe the developmental effects of exposure. Developmental parameters observed included viability, hatching, culture dish attachment and trophoblastic outgrowth with the presence of a distinct inner cell mass. At media concentrations up to 0.78 mM, naphthalene alone exhibited negligible toxic effects in culture; however naphthalene co-cultured with Aroclor-induced rat hepatic S-9 fractions exhibited concentration-dependent embryolethality with an approximate LC50 of 0.18 mM in media. Naphthalene also induced concentration-dependent embryotoxicity at all observed parameters in S-9-supplemented media at concentrations ranging from 0.20 to 0.78 mM. These findings document the role of biotransformation in naphthalene's embryotoxicity to early mouse blastocysts and implicate naphthalene as a potentially embryotoxic and abortifacient component of polycyclic aromatic hydrocarbon mixtures.     

Biotransformation of cyclophosphamide in post-implantation rat embryo culture using maternal hepatocytes in co-culture

The post-implantation rat embryo culture technique is employed to study embryotoxic effects of xenobiotic compounds in the absence of the maternal compartment. For compounds biotransformed in vivo the embryo culture technique must be adapted in order to mimick the in vivo effects. In the present study the possibility of co-culturing metabolically active maternal hepatocytes suspended in the standard culture system with rat serum as a medium was investigated. Cyclophosphamide (CP) was used as a model compound as it needs bioactivation to display embryotoxicity. Morphologic and histologic effects were studied. Neither hepatocytes nor CP alone affected embryo development, whereas in the presence of hepatocytes embryotoxicity was observed at 30 micrograms/ml CP. Embryotoxicity was decreased in the additional presence of metyrapone, a monoxygenase inhibitor. Hepatocyte suspensions prepared via slicing or perfusion of livers were equally effective. In conclusion, co-culture of embryos and suspended hepatocytes can be performed under optimal conditions for embryo development and in the presence of biotransforming activity.     

Effects of oocyte exposure to local anesthetics on in vitro fertilization and embryo development in the mouse.

The effect on fertilization and development of local anesthetics routinely used during ultrasound-guided oocyte retrieval in women undergoing in vitro fertilization was examined in a mouse in vitro fertilization system. Mouse oocytes were exposed in vitro to lidocaine, chloroprocaine, and bupivacaine at concentrations of 0 (control), 0.01, 0.1, 1.0, 10.0, 100.0 micrograms/mL for 30 min, washed, and then inseminated. In vitro oocyte fertilization at 24 and 48 h and embryo development at 72 h were determined. Bupivacaine adversely affected mouse in vitro fertilization and embryo development only at the highest exposure concentration, 100 micrograms/mL, while lidocaine and chloroprocaine produced adverse effects at concentrations as low as 1.0 and 0.1 microgram/mL, respectively. Furthermore, an adverse dose-related effect on fertilization and embryo development was shown for lidocaine and chloroprocaine, but not for bupivacaine. These data demonstrate that the local anesthetics, lidocaine (L), chloroprocaine (C), and bupivacaine (B), adversely affect mouse in vitro fertilization and embryo development in the order of C greater than L greater than B.     

Effect of bacterial purified antigenic fractions on natural defence mechanisms

The in vitro ability of bacterial purified antigenic fractions to interfere with the immune system has been investigated on human mononuclear cells from peripheral blood. Exposure of purified monocytes to the drug at concentrations from 1 to 1000 micrograms/ml, for different periods from 0 to 18 h, significantly increased cell-mediated cytotoxicity against TU5 target cells. Moreover, monocytes exposed for 1 to 18 h to drug concentrations from 0.1 to 1000 micrograms/ml released significant amounts of tumor necrosis factor alpha in a dose-dependent manner in the culture supernatants. The drug was also tested on natural killer (NK) cell activity; mononuclear cells exposed to antigenic fractions for different periods showed a significant increase of NK cytotoxic activity against K562 target cells after 3 and 6, but not 0 and 18 h. Active concentrations were from 1 to 100 micrograms/ml, higher and lower doses being ineffective. Bacterial purified antigenic fractions thus have some ability to interfere in vitro with mechanisms of cytolysis mediated by cells and soluble factors.     

Developmental toxicity of trichloroethylene,tetrachloroethylene and four of their metabolites in rat whole embryo culture

The embryotoxicity of trichloroethylene (TRI) tetrachloroethylene (PER), and of four of their oxidative metabolites i.e. trichloroacetic acid, dichloroacetic acid, chloral hydrate, and trichloroacetyl chloride, was studied in vitro, using the rat whole embryo culture system. Embryos from Sprague-Dawley rats were explanted on gestational day 10 (plug day=day 0) and cultured for 46 h in the presence of the test chemical. All of the tested chemicals produced concentration-dependent decreases in growth and differentiation and increases in the incidence of morphologically abnormal embryos. TRI and PER produced qualitatively similar patterns of abnormalities, while TRI and/or PER metabolites, each elicited clearly distinguishable dysmorphogenic profiles. The presence of hepatic microsomal fractions in the culture medium produced marked decreases in TRI- and PER-induced embryotoxic effects, including mortality, severity of malformations, and delayed growth and differentiation.     

In vitro teratogenicity of acetylsalicylic acid on rat embryos: studies with various culture conditions

Rat embryos taken at day 9.5 of gestation were exposed in vitro to acetylsalicylic acid (aspirin) using various culture conditions. It was observed that embryos were sensitive to aspirin emulsified in olive oil at concentrations greater than or equal to 150 micrograms/ml. Between 43% and 66% of the embryos exhibited multiple malformations depending on the culture medium, 100% homologous rat serum or Waymouth medium supplemented with 50% rat serum, respectively. At concentrations greater than or equal to 400 micrograms/ml aspirin induced further toxic effects on embryo growth and differentiation. When gelatin was used as the drug-delivery system, aspirin at concentrations of greater than or equal to 150 micrograms/ml induced some malformations (mainly irregular somite shapes) in 57% of the embryos cultured in Waymouth medium, but in only 13% of the embryos grown in 100% serum. At concentrations which were greater than or equal to 400 micrograms/ml aspirin induced dysmorphogenic effects in all embryos, without any concomittant toxicity.     

Effects of all-trans-retinoic acid and all-trans-retinoyl glucuronide in two in vitro systems of distinct biological complexity

In vitro systems are widely used to evaluate the embryotoxic potential of retinoids. The effective concentrations of these retinoids, however, are not consistent in the various in vitro systems used in evaluating embryotoxicity. This may be explained by the different level of complexity for each individual system, which may lead to different concentrations of the substances in the target tissues. To verify this hypothesis we have compared two in vitro systems of distinct biological complexity: the rat whole embryo culture system, and the mouse limb bud organ culture system. The lipid soluble, teratogenic retinoid all-trans-retinoic acid (ATRA), and all-trans-retinoyl-beta-D-glucuronide (ATRAG), an endogenous, water-soluble and biologically active retinoid with limited placental transfer, were compared with regard to their embryotoxic potential in vitro. In both in vitro systems, ATRAG showed a lower degree of embryotoxicity than ATRA. In the limb bud organ culture, ATRAG revealed only slightly less toxicity than ATRA, whereas the effective concentrations of the two compounds in the whole embryo culture system differed by almost two orders of magnitude. During incubation with ATRAG, ATRA is generated by hydrolysis and is found in culture media and exposed tissues. The presence of membrane barriers around the developing embryo in the whole embryo culture system possibly prevents the transfer of ATRAG to the embryo and, therefore, its exposure to the active hydrolysis product ATRA. From these results we conclude that analysis of retinoid concentrations in the culture media and in the exposed tissues is essential for the interpretation of results obtained from in vitro toxicity testing.     

In vitro culture of postimplantation hamster embryos

In vitro culture of intact rat and mouse embryos has been described extensively, but information on the culture of other species is sparse. The present study examined some culture requirements of early somite stage hamster embryos and assessed the embryotoxic effects of sodium salicylate (SS), a direct acting chemical and cyclophosphamide (CP), a proteratogen, on these embryos. Hamster embryos explanted on gestation days (GD) 8 and 9 were cultured in Waymouth's embryo-hepatocyte co-cultivation medium (WEHC), 70% McCoy's 5A medium-30% male rat serum (MMRS) or 100% male rat serum (MRS) for 24 hours under various oxygen concentrations. Embryos cultured GD 8 to 9 in the various media grew and differentiated much as they did in vivo, while embryos cultured GD 9 to 10 grew best in MMRS as compared to embryos at the same stage in vivo. Embryos exposed to SS in MMRS at concentrations of 250, 300, or 400 micrograms/ml showed dose related embryotoxicity which included CNS defects, absence of hind limb bud formation, and lack of axial rotation. Hamster embryos co-cultivated with pregnant hamster hepatocytes and treated with 2.5, 6.25 and 12.5 micrograms/ml of CP, showed dose-dependent toxicity when compared to co-cultivated controls. Hamster embryos develop extensively in culture over a 24 hour period. This system may therefore provide a valuable tool for evaluating the species differences of a variety of potential teratogens and embryotoxins and allow the comparison of these embryotoxic effects between rat, mouse and hamster during similar stages of organogenesis.     

The antibiotic streptomycin assessed in a battery of in vitro tests for reproductive toxicology.

Streptomycin is one of the most widely used antibiotics and is frequently added to cell culture media to prevent bacterial growth. We tested streptomycin in a battery of in vitro assays for assessment of reproductive toxicity. The follicle bio-assay (FBA) is a multiparametric long-term follicle culture system mimicking ovarian function; in vitro fertilisation (IVF) of exposed oocytes enables gamete quality determination through fecundability; the mouse embryo assay (MEA) analyses pre-implantation embryo development whereas the embryonic stem cell test (EST) studies post-implantation embryotoxicity. The FBA revealed a concentration-dependent decrease in oocyte nuclear maturation during continuous exposure from 50 microg/ml streptomycin onwards, characterised by a significantly reduced polar body-rate (40% vs. 92% in the control group). Oocytes that remained arrested in metaphase I (germinal vesicle breakdown) had aberrant spindle formation. IVF of long-term exposed oocytes in the FBA to 50 microg/ml streptomycin resulted in a significantly lower fertilisation rate of 23% vs. 74% in the control group and were unable to develop to the blastocyst stage. The MEA revealed no effect at pre-implantation embryo development and quality. Furthermore, no embryo-toxic effects of streptomycin were observed in the EST. In conclusion, oocytes are vulnerable to streptomycin treatment. Long-term exposure might cause fertility problems in the female and caution should be taken using streptomycin in cell culture media for assisted reproductive technology (ART).     

Comparison of in vitro and in vivo developmental toxicity and pharmacokinetics of phenytoin in the rat

The rat whole embryo culture was compared to an in vivo experiment with regard to embryotoxicity as well as exposure characteristics, using phenytoin as a model compound. Intra-embryonic concentrations and their embryotoxic effects were determined on gestation day 11 after in vitro administration of 50-150 microg/ml or in vivo gavage of 500-1500 mg/kg body-weight on gestation day 10. In addition, exposure kinetics were studied in vivo after a single oral dose on gestation day 10, and developmental defects on gestation day 21 were scored. The embryotoxic effects observed on gestation day 11 were more pronounced after in vitro exposure in comparison to in vivo exposure at similar intra-embryonic concentrations. Exposure of phenytoin on gestation day 10 in vitro via the culture medium resulted in general embryotoxicity on gestation day 11, whereas in vivo effects as determined on gestation day 11 were minimal. Plasma concentrations of phenytoin increased and plateaued around 35 microg/ml during the 48 hr monitoring period. Plasma concentration curves and pharmacokinetic parameters did not show remarkable differences between the dose groups, indicating that absorption is the limiting factor at the dose range used. Although the developmental effects were minimal as observed in vivo on gestation day 11, specific malformations (defects encompassing the urogenital. craniofacial and skeletal systems) were observed on gestation day 21. These findings show that with similar intra-embryonic concentrations of phenytoin the embryotoxicity in rat whole embryo culture was not comparable with the in vivo embryotoxicity as determined on gestation day 11. This discrepancy may at least partly be explained by differences in exposure characteristics.     

Cleavage and development in cultured preimplantation mouse embryos exposed to lidocaine

Two-cell preimplantation mouse embryos were exposed in vitro to lidocaine (0 to 1,000 μg/mL) for 72 h to determine the effects of this anesthetic on subsequent cleavage and development during prolonged exposures. Embryonic development was monitored each 24 h for 3 d. Lidocaine adversely affected the in vitro development of the mouse embryos, altering the distribution of the development stages at the evaluated culture tunes. The percentage of two-cell embryos that cleaved and developed to more advanced stages was decreased by the exposure to lidocaine. After 24 h of culture, two-cell embryos were arrested before completion of cellular division; this occured in 30% of the embryos at concentrations of 10 to 100 μg/mL and in 73.2% of the embryos with 1,000 μg/mL. After 48 h the blastomeres of the arrested embryos began to degenerate, showing lysis or fragmentation. At the lowest concentration, 14.9% of the arrested embryos exhibited the capacity to recover. These embryos continued their cleavage and normal development towards blastocyst formation. The cytotoxic effect and arrest at the two-cell stage were observed in a dose-dependent manner after 72 h of culture. We conclude that sensitivity to lidocaine embryotoxicity occurs during a window at the two-cell stage.     

Comparative developmental toxicities of aliphatic nitriles: in vivo and in vitro observations

The effects on embryonic development of a series of eight saturated (acetonitrile, propionitrile, and n-butyronitrile) and unsaturated (acrylonitrile, methacrylonitrile, allylnitrile, cis-2-pentenenitrile, and 2-chloroacrylonitrile) nitriles were compared in vitro using the whole embryo culture system. Day 10 rat embryos were cultured for 46 h in rat serum in the presence of either of these chemicals. All the tested chemicals produced concentration-dependent decreases in growth and differentiation and increases in the incidences of morphologically abnormal embryos. A wide range of embryotoxic potency was observed, with 2-chloroacrylonitrile and acetonitrile at the extremes (lowest effect levels of 50 microM and 40 mM, respectively). No common pattern could be drawn for all the eight nitriles tested in vitro, although there were some similarities between the malformations elicited by propionitrile and n-butyronitrile or between those elicited by the five unsaturated nitriles. Presence of a rat hepatic microsomal fraction and NADPH in the culture medium enhanced the embryotoxic effects of the five unsaturated nitriles tested but had no effects on saturated nitriles embryotoxicity. In addition to these in vitro experiments, pregnant rats were given a single oral dose of each compound on Day 10 of gestation and the embryos were evaluated on Day 12 of gestation, i.e., at a time of development corresponding to the developmental stage at the end of the whole embryo culture. All the nitriles investigated produced the characteristic defects developed by embryos exposed to sodium cyanide in utero or in culture. Our results provide further evidence that maternal production of cyanide may contribute to the developmental toxicity of saturated and unsaturated nitriles and suggest that distinct metabolites derived from microsomal metabolism of unsaturated nitriles may also play a role.     

Effects of thallium on primary cultures of testicular cells.

The objective of this in vitro study was to examine the response of mixed cultures of Sertoli and germ cells to treatment with thallium (Tl) at the range of concentrations that, in previous studies, was shown in vivo to affect reproduction. Cultures were prepared from the testis of Sprague-Dawley rats. Cultures containing approximately 3.75 x 10(6) cells/ml were treated with Tl concentrations corresponding to 35, 7, and 1.4 micrograms Tl/g testis, estimated from protein content of cultures. Observations at 24, 48, and 72 h after treatment showed a significant release of germ cells into the culture medium that was both concentration and time dependent. Cultures treated with 35 micrograms Tl/g testis showed a threefold increase in germ-cell detachment compared with controls after only 24 h of exposure. As the treatment time increased to 48 h of exposure, even cultures exposed at the lowest Tl concentration (1.4 micrograms Tl/g testis) showed significant loss of germ cells. After 48 h, cultures exposed to 7 micrograms Tl/g testis exhibited a 2.5-fold increase in germ-cell detachment, and those exposed to 35 micrograms Tl/g testis exhibited a 10-fold increase over controls. Morphological investigations of cell cultures showed evident loss of germ cells with significant reduction in prepachytene and pachytene spermatocytes and changes in the shape of Sertoli cells. These results are in agreement with in vivo studies, in which thallium treatment at comparable exposure levels manifested its earliest toxic testicular effects in Sertoli and germ cells. They also demonstrate the usefulness of this in vitro culture technique to assess toxic testicular damage rapidly.     

Whole embryo culture: an important tool in developmental toxicology today

The number of candidate chemicals or drugs for registration and authorization is increasing at a fast rate and only few of the existing substances have been tested for teratogenicity to date. Therefore, there is high pressure on authorities to accept models like the whole embryo culture as a screening system for safety evaluation procedures. In view of this background the gradual development of the whole embryo culture into a standardized, scientifically validated tool for developmental toxicology during the last 70 years is summarized. The methodological development of the culture technique is described with the completion, improvement and refinement of the basic culture method as main intention. Special attention was paid to different culture techniques, culture media, gassing schedules, and evaluation strategies. Furthermore the importance of taking "in vitro pharmacokinetics" into consideration when a comparison of in vitro/in vivo results from embryotoxicity testing is intended, is stressed. Additionally, the demonstration of the broad spectrum of useful scientific applications when using this culture system in combination with sophisticated analytical techniques is demonstrated. Finally, an overview on different strategies for the validation of this culture system as an in vitro embryo toxicity test is provided and the officially accepted formal validation process for this application is summarized. The successful validation makes the whole embryo culture a complex in vitro embryotoxicity test with high accuracy and predictability. This robust in vitro system modelling the main phase of rodent organogenesis with a high reproducibility is valuable enough to attract special attention in related scientific fields.     

Direct action by doxycycline against canine osteosarcoma cell proliferation and collagenase (MMP-1) activity in vitro

BACKGROUND: Matrix metalloproteinases (MMPs) produced by tumor cells disrupt the integrity of the extracellular matrix (ECM). Inhibiting MMPs activity could significantly reduce tumor invasion and metastasis. MATERIALS AND METHODS: Canine osteosarcoma (OSA) cells were exposed to doxycycline in vitro to determine whether this chemically modified tetracycline had antiproliferative and anticollagenolytic activity. RESULTS: Doxycycline significantly reduced cell proliferation in a dose dependent manner. Doxycycline at the doses of 5 and 10 micrograms/ml suppressed cell number 50% and 72%, respectively. Furthermore, doxycycline significantly reduced collagenase activity at the doses of 10 and 20 micrograms/ml by 35% and 50%, respectively. OSA cells did not produce any endogenous collagenase in the culture medium. CONCLUSIONS: This study has shown that doxycycline at doses greater than 5 micrograms/ml in vitro significantly decreases cell proliferation and collagenase (MMP-1) activity. Prospective studies should be conducted to determine if doxycycline, a chemically modified tetracycline with low systemic toxicity, has specific anti-collagenase activity in vivo. Our studies indicate that canine osteosarcoma represents a suitable model for additional in vitro and in vivo studies.     

POTENTIAL TERATOGENICITY OF 3-CHLORO-4- (DICHLOROMETHYL)-5-HYDROXY-2(5 H)-FURANONE (MX) IN MICROMASS IN VITRO TEST

3-Chloro-4-(dichloromethyl)-5-hydroxy-2(5 H)-furanone (MX), a by-product of wood pulp manufacture and a contaminant of chlorinated drinking water, was investigated for potential teratogenicity using the micromass in vitro test system. Twelve-day rat embryo midbrain (central nervous system, CNS) and limb bud (LB) cells were exposed to MX at concentrations of 1, 2, 5, or 10 mug/ml in the culture medium with or without S9 mix. Under the experimental conditions, the amount of MX rapidly declined in the culture medium with a half-life of 56 min. Nevertheless, differentiation of CNS and LB cells was significantly inhibited at concentrations of 2 mug/ ml or more, when the cells were exposed to MX in the absence of S9 mix. The estimated IC50 was approximately 3 mug/ml for both CNS and LB cell cultures. On the other hand, exposure of CNS and LB cells to MX along with S9 mix did not reduce the number of differentiated foci at any concentrations tested. These results suggest that MX may be a potential direct-acting in vitro teratogen.     

Dose-response relationship of cadmium embryotoxicity in cultured mouse embryos

Mouse embryos were exposed in vitro to 1.2 to 2.2 μM cadmium, and effects on embryotoxicity were examined after 39 h of culture. Teratogenic responses similar to in vivo were obtained at 1.2 to 2.2 μM with concomitant reduction in embryonic protein, while embryo deaths were increased from 13.8 to 93.3% at 2.0 to 2.2 μM. The response data of both teratogenicity and growth parameters, including embryonic protein, head lenght, crown-rump lenght, somite number, and protein and diameter of yolk sac, were acceptably fitted to a cadmium is a critical parameter in the manifestation of teratogenic potential, (b) as an estimation of interference in the growth of embryos, embryonic protein is one of the most sensitive endpoints while somite number is an insensitive criterion, and (c) a linear log-probit regression is applicable to the analyses of embryotoxicity data, including growth parameters in whole-embryo culture systems.     

Embryotoxic effects of benzo[a]pyrene, chrysene, and 7,12-dimethylbenz[a]anthracene in petroleum hydrocarbon mixtures in mallard ducks

Studies with different avian species have revealed that surface applications of microliter amounts of some crude and fuel oils that coat less than 10% of the egg surface result in considerable reduction in hatching with teratogenicity and stunted growth. Other studies have shown that the embryotoxicity is dependent on the aromatic hydrocarbon content, further suggesting that the toxicity is due to causes other than asphyxia. In the present study the effects of three polycyclic aromatic hydrocarbons identified in petroleum were examined on mallard (Anas platyrhynchos) embryo development. Addition of benzo[a]pyrene (BaP), chrysene, or 7,12-dimethylbenz[a]anthracene (DMBA) to a synthetic petroleum hydrocarbon mixture of known composition and relatively low embryotoxicity resulted in embryotoxicity that was enhanced or equal to that of crude oil when 10 microliter was applied externally to eggs at 72 h of development. The order of ability to enhance embryotoxicity was DMBA greater than BaP greater than chrysene. The temporal pattern of embryonic death was similar to that reported after exposure to crude oil, with additional mortality occurring after outgrowth of the chorioallantois. Retarded growth, as reflected by embryonic body weight, crown-rump length, and bill length, was accompanied by teratogenicity. Abnormal embryos exhibited extreme stunting; eye, brain, and bill defects; and incomplete ossification. Gas chromatographic-mass spectral analysis of externally treated eggs showed the passage of aromatic hydrocarbons including chrysene through the shell and shell membranes to the developing embryos. These findings suggest that the presence of polycyclic aromatic hydrocarbons in petroleum, including BaP, chrysene, and DMBA, significantly enhances the overall embryotoxicity in avian species.     

Dose-response relationship of cadmium embryotoxicity in cultured mouse embryos

Mouse embryos were exposed in vitro to 1.2 to 2.2 microM cadmium, and effects on embryotoxicity were examined after 39 h of culture. Teratogenic responses similar to in vivo were obtained at 1.2 to 2.2 microM with concomitant reduction in embryonic protein, while embryo deaths were increased from 13.8 to 93.3% at 2.0 to 2.2 microM. The response data of both teratogenicity and growth parameters, including embryonic protein, head length, crown-rump length, somite number, and protein and diameter of yolk sac, were acceptably fitted to a linear log-probit regression. These results suggest that (a) In chronic exposure conditions, the concentration of cadmium is a critical parameter in the manifestation of teratogenic potential, (b) as an estimation of interference in the growth of embryos, embryonic protein is one of the most sensitive endpoints while somite number is an insensitive criterion, and (c) a linear log-probit regression is applicable to the analyses of embryotoxicity data, including growth parameters in whole-embryo culture systems.     

New metabolites of thiabendazole and the metabolism of thiabendazole by mouse embryo in vivo and in vitro

Thiabendazole [2-(4'-thiazolyl)benzimidazole; TBZ], a teratogen in ICR mice, is known to be mainly metabolized to 5-hydroxy-TBZ (5-OH-TBZ) and its conjugates in domestic and laboratory animals. Besides the known metabolites of TBZ, 4-hydroxy-TBZ and 2-acetylbenzimidazole (ABI) were identified as new metabolites of TBZ in the urine of F344 rats and ICR mice. 5-OH-TBZ and ABI, as well as TBZ, were found in the embryos of ICR mice given TBZ orally on day 10 of gestation. In the whole-embryo culture system, 5-OH-TBZ and ABI in the medium, and TBZ, 5-OH-TBZ and ABI in the embryo were detected after 24 hr of culture in 25 or 50 micrograms TBZ ml. However, the amount of metabolites in the embryo in vitro was very small compared with that detected in vivo, whereas the amount of TBZ was comparable. Furthermore, the mouse embryo homogenate, at organogenesis, metabolized TBZ to 5-OH-TBZ or ABI. The specific activity required by this homogenate to form 5-OH-TBZ or ABI was less than 1/1000 of that of the liver microsomal fraction. The results suggested that mouse embryos at organogenesis could metabolize TBZ, although most of the metabolites in the embryo in vivo came from the dam.