Konstanze Grote

Developmental Exposure to Low-Dose PBDE-99: Effects on Male Fertility and Neurobehavior in Rat Offspring

In utero exposure to a single low dose of 2,2′,4,4′,5-pentabromodiphenyl ether (PBDE-99) disrupts neurobehavioral development and causes permanent effects on the rat male reproductive system apparent in adulthood. PBDEs, a class of flame retardants, are widely used in every sector of modern life to prevent fire. They are persistent in the environment, and increasing levels of PBDEs have been found in biota and human breast milk. In the present study we assessed the effects of developmental exposure to one of the most persistent PBDE congeners (PBDE-99) on juvenile basal motor activity levels and adult male reproductive health. Wistar rat dams were treated by gavage on gestation day 6 with a single low dose of 60 or 300 μg PBDE-99/kg body weight (bw). In offspring, basal locomotor activity was evaluated on postnatal days 36 and 71, and reproductive performance was assessed in males at adulthood. The exposure to low-dose PBDE-99 during development caused hyperactivity in the offspring at both time points and permanently impaired spermatogenesis by the means of reduced sperm and spermatid counts. The doses used in this study (60 and 300 μg/kg bw) are relevant to human exposure levels, being approximately 6 and 29 times, respectively, higher than the highest level reported in human breast adipose tissue. This is the lowest dose of PBDE reported to date to have an in vivo toxic effect in rodents and supports the premise that low-dose studies should be encouraged for hazard identification of persistent environmental pollutants.

In Utero and Lactational Exposures to Low Doses of Polybrominated Diphenyl Ether-47 Alter the Reproductive System and Thyroid Gland of Female Rat Offspring

Background Polybrominated diphenyl ethers (PBDEs) are capable of disrupting thyroid hormone homeostasis. PBDE-47 (2,2′,4,4′-tetrabromodiphenyl ether) is one of the most abundant congeners found in human breast adipose tissue and maternal milk samples. Objectives We evaluated the effects of developmental exposure to low doses of PBDE-47 on the female reproductive system. Methods Pregnant Wistar rats were administered vehicle (peanut oil) or PBDE-47 [140 or 700 μg/kg body weight (bw)] on gestation day (GD) 6, or 5 mg 6-n-propyl-2-thiouracil (PTU)/L in the drinking water from GD7 through postnatal day (PND) 21. Results In female offspring sacrificed on PND38, there was a significant decrease in ovarian weight after exposure to PTU or 140 μg/kg PBDE-47. Alterations in folliculogenesis were apparent: we observed a decrease in tertiary follicles and serum estradiol concentrations in the offspring exposed to either PTU or 700 μg/kg PBDE-47. PTU exposure also resulted in a decrease in primordial follicles. On PND100, persistent effects on the thyroid glands included histologic and morphometric changes after exposure to either PTU or PBDE-47. No relevant changes in reproductive indices were observed after mating the exposed F1 females with nontreated males. Conclusions Administration of PBDE-47 at doses relevant to human exposure led to changes in the rat female reproductive system and thyroid gland.

Terminology of Developmental Abnormalities in Common Laboratory Mammals (Version 2)

This update (Version 2) of the Terminology of Developmental Abnormalities in Common Laboratory Mammals (Version 1) incorporates improvements and enhancements to both content and organization of the terminology to enable greater flexibility in its application, while maintaining a consistent approach to the description of findings. The revisions are the result of an international collaboration among interested organizations, advised by individual experts and the outcomes of several workshops. The terminology remains organized into tables under the broad categories of external, visceral, and skeletal observations, following the manner in which data are typically collected and recorded in developmental toxicity studies. This arrangement of the tables, as well as other information provided in appendices, is intended to facilitate the process of specimen evaluation at the laboratory bench level. Only the commonly used laboratory mammals (i.e. rats, mice, rabbits) are addressed in the current terminology tables. The inclusion of other species that are used in developmental toxicity testing, such as primates, is considered outside the scope of the present update. Similarly, categorization of findings as, for example, ‘malformation’ or ‘variation’ remains unaddressed, in accordance with the overall principle that the focus of this document is descriptive terminology and not diagnosis or interpretation. The skeletal terms have been augmented to accommodate cartilage findings.

Sex differences in effects on sexual development in rat offspring after pre- and postnatal exposure to triphenyltin chloride.

Consumers are exposed to organotin compounds (OTCs) via contaminated fish and seafood due to the accumulation of these compounds in marine organisms. Certain OTCs are immunotoxic and may also have endocrine disrupting properties resulting in adverse effects on the reproductive tract in mollusks and mammals. Since effects of in utero exposure to endocrine disrupting chemicals on the reproductive system are dependent on the critical window of exposure during its development, we conducted a comprehensive study with the aim to identify the most sensitive window of exposure to TPTCl and to investigate the effects of pre- and postnatal treatment on sexual development in rats. Male and female offspring rats were exposed to 2 or 6 mg TPTCl/kg b.w. and day either in utero and during lactation (gestation day 6 until weaning on PND 21) or from gestation day 6 until termination. As previously reported, offspring in the 6 mg TPTCl dose group exhibited high perinatal mortality and therefore no further evaluation was carried out at this dose level (Grote, K., Hobler, C, Andrade, A.J.M., Wichert Grande, S., Gericke, C., Talsness, C.E., Appel, K.E., Chahoud, I., 2007. Effects of in utero and lactational exposure to triphenyltin chloride on pregnancy outcome and postnatal development in rat offspring. Toxicology 238, 177-185). In the present paper, results on postnatal development obtained from surviving offspring of dams exposed to 2mg TPTCl/kg b.w. are reported. Male offspring were sacrificed on PND 64 or 65 and female offspring at first estrus after PND 58. A clear sex difference in response to treatment was observed. Male postnatal development was severely affected with decreases in body weight gain, reproductive organ weights and testosterone concentration as well as a significant delay in the age at preputial separation. In contrast, females exhibited a precocious completion of vaginal opening while all other endpoints were unaffected. Most of these effects were already present in animals that were only exposed until weaning indicating that these effects may be irreversible and continued treatment until termination had contributed less than expected to the severity of the observed effects. The results of the present study suggest that the sensitive window for the evaluated endpoints seems to be the period of prenatal development and that male offspring rats were more susceptible to treatment.

Epoxiconazole causes changes in testicular histology and sperm production in the Japanese quail (Coturnix coturnix japonica)

The fungicide epoxiconazole (Epox), a triazole, belongs to the group of azole compounds that are extensively used as fungicides in various fruit crops. The frequent use of agricultural lands for wintering by migrating birds can be the source of their increased dietary intake of agricultural pesticides. We investigated whether exposure to Epox causes effects on avian fertility and reproduction, using the Japanese quail (Coturnix coturnix japonica) as a model species for the assessment of reproductive effects of pesticides in wild birds. Epox was administered to adult Japanese quail for three weeks at dietary levels of 10, 50, and 500 ppm, and possible effects on reproduction were investigated. Epox administration resulted in a significantly decreased number of spermatids in the 50- and 500-ppm dose groups. Histopathology showed a reduced number of testicular canaliculi with visible germ cells and a reduction in spermatid number. However, testis weight was not affected up to the highest dose level. No impact was observed on hormone levels, fertility, and reproductive outcome, as laying rate and percentage of fertile eggs were not altered. Likewise, treatment had no influence on the egg or chick parameters evaluated. A time- and dose-related transfer of Epox into the eggs was determined in all treatment groups. We conclude that dietary treatment of Japanese quail with 50 and 500 ppm of the triazole fungicide Epox resulted in a clear impact on the testis. The evaluation of the additional endpoints spermatid count and testicular histology have proven useful and are recommended for future studies on avian reproduction.

Sex-dependent aromatase activity in rat offspring after pre- and postnatal exposure to triphenyltin chloride

Triphenyltin (TPT) is an organotin compound (OTC) previously widely used as an antifouling agent in paints applied in the marine environment, a fungicide, and as an agricultural pesticide. In female aquatic invertebrates, certain OTCs induce the so-called imposex, an abnormal induction of male sex characteristics. OTC-induced environmental endocrine disruption also occurs in fish and mammals and a number of in vivo and in vitro studies have argued that OTCs may act through inhibition of the aromatase enzyme. In vivo studies supporting the aromatase inhibition hypothesis in mammals are lacking. Recently, the causal relationship between inhibition of aromatase and imposex was questioned, suggesting aromatase independent mechanisms of action for this phenomenon. We conducted a comprehensive investigation to identify the most sensitive window of exposure to TPTCl and to examine the effects of pre- and postnatal exposure on postnatal development in rats. The results on brain and gonadal aromatase activity obtained from offspring of dams exposed to 2 mg TPTCl/kg bw are reported here. Female and male offspring rats were exposed to 2 mg TPTCl/kg bw/d in utero from gestation day 6 through lactation until weaning on PND 21, or from gestation day 6 until termination at adulthood. Male offspring were sacrificed from PND 58 and female offspring at first estrus after PND 58. Pre- and postnatal TPT exposure clearly affected brain and gonadal aromatase activity in a sex-dependent fashion. While brain aromatase activity was significantly increased on PND 21 and at adulthood in female offspring, male offspring exhibited a significant decrease in brain aromatase activity only at adulthood. Ovarian aromatase activity was unaffected at both time points investigated. In contrast, testicular aromatase activity was significantly increased in males on PND 21 and significantly decreased at adulthood independent from the duration of treatment. The results of the present study confirm our previously reported observations regarding sex-dependent differences in sexual development after TPT exposure with the male rat being more susceptible to disturbances through this endocrine active compound than the female. We conclude that TPT administered during the particularly vulnerable period of development can affect aromatase activity in rats.

Postnatal investigation of prenatally induced effects on the vertebral column of rats reduces the uncertainty of classification of anomalies

Classification of substances as teratogenic is based on the observation of external, visceral and skeletal anomalies. Characterization of anomalies as variation or malformation is contingent upon their postnatal persistence and adversity to health. Lack of information thereof may result in inconsistent or incorrect classification. The aim of this work is the examination of vertebral skeletal anomalies regarding their postnatal fate on PNDs 7 and 21. The anomalies unossified, asymmetric ossification, bipartite ossification, hemicentric, as well as misshapen, did not persist up to PND21 and should be classified as a variation. The finding, cervical vertebra centrum dumbbell-shaped, should be categorized as a malformation due to its continued presence on PND 21. Lumbar centrum supernumerary sinister/dexter/sinister+dexter should also be classified as a malformation. This study demonstrates that postnatal examination is useful and substantially improves the ability to perform a scientifically sound classification of an anomaly compared to investigations terminated on GD 21.

Prenatal exposure to the phytoestrogen daidzein resulted in persistent changes in ovarian surface epithelial cell height, folliculogenesis, and estrus phase length in adult Sprague-Dawley rat offspring.

Daidzein (DZ), an isoflavone with the potential to interfere with estrogen signaling, is found in soy products, which have gained popularity due to purported beneficial effects on the cardiovascular and skeletal systems and potential antineoplastic properties. However, the ingestion of phytoestrogens has been associated with impaired reproductive function in many species. The aim of this study was to determine the long-term effects on the ovaries of rat offspring exposed to DZ or ethinyl estradiol (EE) during prenatal development. Gravid rats were administered either vehicle or 5 or 60 mg DZ/kg body weight/d or 0.002 mg 17-α EE /kg body weight/d on gestational days 6–21. Ovarian-related endpoints were investigated during adulthood in female offspring. The mean cell height of the ovarian surface epithelium was significantly reduced in all treated groups. Alterations in folliculogenesis included increased follicular atresia, a reduction in secondary and tertiary follicle numbers, and cyst formation. An elevated prevalence of a slightly prolonged estrus phase was also observed. The morphological changes to the ovarian surface epithelium are consistent with an antiproliferative effect, while ovarian folliculogenesis was adversely affected. The effects of the high dose DZ were similar to those observed with 17-α EE.

Examination of Japanese quail chicks in one-generation feeding studies for effects of the agrochemicals dimethoate, fentin hydroxide, and vinclozolin on skeletal development

An established method for evaluation of skeletal anomalies was successfully adapted to Japanese quail (Coturnix coturnix japonica) and performed on 793 untreated 1-day old chicks to develop an historical control database. Incomplete ossification of the pelvic bones and irregular position of the toes were rather frequently observed. Subsequently, 702 chicks from the treatment groups in three one-generation reproduction studies with the pesticides dimethoate, triphenyltin (fentin) hydroxide, and vinclozolin were compared to their respective controls and the whole historical database. Presumed treatment-related effects were confined to a higher number of chicks with incomplete ossification of vertebrae and pelvis when the hens had been administered fentin hydroxide at a dietary level of 30 ppm for up to 6 weeks, corresponding to a mean daily substance intake of 3.1-3.9 mg kg−1 body weight (bw). Thus, inclusion of teratological findings as a further endpoint confirmed the previously established NOAEL of 3 ppm (equal to 0.28-0.35 mg kg−1 bw/day) based on reproductive effects in this study. No effects on skeletal development were seen with dimethoate and vinclozolin up to the highest dietary concentrations of 70 and 500 ppm, corresponding to estimated mean daily intakes of about 8 or 56 mg kg−1 bw. The suitability of the method for reliable detection of skeletal anomalies was proven. The established method can be considered useful in providing additional information for ecotoxicological risk assessment.

Response to Dr. Francisco Paumgartten's letter to the Editor: "On the persistence of rat axial skeleton anomalies after birth".

We welcome the contribution of Dr. Paumgartten to the debate n the classification of anomalies based on examination on GD 1 versus examination at different postnatal time points. This ery important unresolved topic was addressed more than three ecades ago by Khera [5] and one objective of our publication was he revival of the discussion regarding the postnatal fate of skeletal nomalies detected on GD 21. In his letter to the editor, Dr. Paumgartten refers to the missing ata on postnatal body weight gain and mortality in our study. In lassic developmental toxicity studies, one distinguishes between ffects on survival, growth and visceral or skeletal structures. The valuation of structural anomalies on GD 21, therefore, is carried ut independently from the number of resorptions or fetal moralities which may occur due to lethal structural anomalies. This ethodology may lead to an observed lower incidence of strucural anomalies in the affected embryos. However, we applied this lassical methodology to our present study in order to standardize he comparisons between GD 21 and the different PND time points. his was also the case in the study by Marr et al. [6]. We would also like to emphasize that the present study was not esigned to evaluate the embryotoxicity of FUDR. As stated in the ublication, FUDR is a known teratogen and we used it as a model ubstance. The aim of our study was to compare the classical time oint of observation on GD 21 to two postnatal time points, PND 7 nd PND 21, in order to evaluate the persistence of vertebral findngs. For the above mentioned reasons, the evaluation of postnatal ody weight gain and mortality were not objectives of the study s the incidence of anomalies is evaluated independent from these arameters on GD 21. Dr. Paumgartten states that it is not suitable to classify umbbell-shaped ossification centers as malformations due to their ersistence on PND 21. He bases his argument on the findings by arr et al., who no longer observed anomalies of vertebral centers f offspring evaluated on PND 63. We chose to evaluate postnatal ay 21 as it is considered to be an important time point in rodent evelopment and is a frequent time point of analysis in developental toxicity studies. Skeletal anomalies resolved by this time oint would presumably have less impact on human health and unction than ones which take a longer period of time. On PND 63, ost strains of rats have completed puberty and are transitioning nto adulthood. We consider anomalies still present on PND 21 to e relevant for human health and based on the data collected on ND 21 in our study, we have to suggest that their classification be s malformation.