Environmental estrogens and reproductive biology in amphibians

Polychlorinated biphenyls, sex steroid hormones and liver retinoids in adult male European common frogs Rana temporaria

Declines in amphibian populations and species biodiversity during the last decades has called for an assessment of possible threats to these animals. Polychlorinated biphenyls (PCBs) are known endocrine disrupting contaminants and are found in high levels in some populations of wild living amphibians. To evaluate the endocrine disrupting potential of PCBs in adult frogs, Aroclor 1,254 were subcutaneously injected into male European common frogs Rana temporaria. The injected doses ranged from 0.01 to 100 mg/kg body mass, resulting in liver concentrations between 74 and 133,619 microg/kg ww. After 14 days, serum testosterone (T), estradiol (E) and hepatic retinol (R) and retinylpalmitate (RP) were easured. No dose dependent effects were found on levels of hormones or retinoids. However, a significantly higher within-group variation in the E-T ratio in the exposed groups may indicate that the sex-hormone homeostasis of male R. temporaria is affected by PCBs shortly after arousal from hibernation, but that the effects are subtle and that several different mechanisms are involved. The lack of direct effect on T, E, R and RP may be due to the timing of exposure (shortly after arousal from hibernation), or due to a relatively short exposure time to Aroclor 1,254. Based on the results, we propose that future research should focus on effects of PCBs in relation to the different physiological phases frogs experience throughout the year (hibernation, reproduction etc.).

Luteinizing hormone, follicle stimulating hormone, and gonadotropin releasing hormone mRNA expression of Xenopus laevis in response to endocrine disrupting compounds affecting reproductive biology

Environmental pollutants can interfere with the endocrine system of a variety of animals and are suggested to contribute to the worldwide decline of amphibians. In this study, the effects of endocrine disrupting compounds (EDC) on the hypothalamus-pituitary-gonad axis, regulating reproduction, were investigated in Xenopus laevis by determining their potential impact on gene expression of gonadotropin releasing hormone (GnRH), luteinizing hormone beta-subunit (LHbeta) and follicle-stimulating hormone beta-subunit (FSHbeta) in brain and pituitary using semi-quantitative reverse transcription polymerase chain reaction (RT-PCR). One environmental sample and four model compounds, ethinylestradiol (EE2), tamoxifen (TAM), methyldihydrotestosterone (MDHT), and flutamide (FLU), corresponding to (anti)estrogenic and (anti)androgenic modes of action were used at 10(-8)M during a four weeks exposure of adults of both sexes. In general, males had a higher LHbeta mRNA level compared to females, while the mRNA expression of FSHbeta and GnRH did not differ between both sexes. EE2 and MDHT treatment decreased LHbeta mRNA expression in the brain of male X. laevis, while only EE2 but not MDHT reduced LHbeta mRNA in females indicating classical negative feed-back mechanisms on hypophyseal gonadotropin expression. TAM increased LHbeta mRNA and FSHbeta mRNA expression in female X. laevis while none of the other treatments showed an effect on FSHbeta mRNA expression. GnRH expression was not changed by any treatment and exposure of X. laevis to Lambro river water had no significant effect on any of the genes examined. It is reported for the first time in amphibians that gonadotropin mRNA expression is differentially regulated by (anti)estrogenic and (anti)androgenic EDC and that gender-specific patterns of gene expression exist.

All ZZ male Xenopus laevis provides a clear sex-reversal test for feminizing endocrine disruptors

We investigated the possibility of using all ZZ male Xenopus laevis tadpoles produced by mating normal ZZ males with feminized ZZ males to detect estrogenic chemical activity. We examined the effects of 17beta-estradiol (E2) on sex differentiation by treating NF stage 49/50 to stage 57 tadpoles with 0.1, 1, 10, and 20 nM E2 for 4 weeks. Following this, the tadpoles were allowed to develop in clean water until the animals reached stage 66. Increased developmental abnormalities and mortality were not observed in all E2-exposed groups during metamorphosis. Feminization of gonads was detected at all E2 concentrations, whereas nonexposed controls developed testes. Morphological and histological analyses showed that feminized gonads were ovaries. Five and one hermaphroditic frogs were found in the 0.1 and 1 nM E2 groups, respectively, showing testicular as well as ovarian regions within one gonad. These results indicate that phenotypically normal females can be produced from genetic males and demonstrate the utility of a sex-reversal test based on all ZZ males for examining in vivo effects of chemicals with estrogenic activity. The testing of all ZZ male tadpoles might be a useful tool for assessment of feminizing compounds not only estrogenic substance.

Contaminant-induced feminization and demasculinization of nonmammalian vertebrate males in aquatic environments

Many chemicals introduced into the environment by humans adversely affect embryonic development and the functioning of the male reproductive system. It has been hypothesized that these developmental alterations are due to the endocrine-disruptive effects of various environmental contaminants. The endocrine system exhibits an organizational effect on the developing embryo. Thus, a disruption of the normal hormonal signals can permanently modify the organization and future function of the male reproductive system. A wide range of studies examining wildlife either in laboratories or in natural settings have documented alterations in the development of males. These studies have begun to provide the causal relationships between embryonic contaminant exposure and reproductive abnormalities that have been lacking in pure field studies of wild populations. An understanding of the developmental consequences of endocrine disruption in wildlife can lead to new indicators of exposure and a better understanding of the most sensitive life stages as well as the consequences of exposure during these periods.

Differential organ expression patterns of thyroid hormone receptor isoform genes in p,p'-DDE-treated adult male common frog, Rana temporaria

Using the European common frog, Rana temporaria, as a model, we have studied the organ-specific gene expression patterns of thyroid hormone receptor isoforms after exposure to an organochlorine (OC) compound, p,p'-DDE. Four groups of frogs were subcutaneously injected with p,p'-DDE at 0.01, 0.1, 1 and 10mg/kg body weight, respectively. In addition, one group, serving as the control group, was injected with pure corn oil. TH receptor isoforms (TRα and TRβ) gene expressions were evaluated in the brain, kidney, testis and liver using real-time PCR with gene-specific primers. Our results show that p,p'-DDE doses induced slight elevations of TRα and TRβ mRNA in the brain. In the testis, p,p'-DDE induced an initial significant 3-fold increase of TRα mRNA at 0.01mg/kg and thereafter clear dose-dependent decreases of TRα mRNA levels were observed. For testicular TRβ mRNA levels, p,p'-DDE induced a slight elevation at 0.01mg/kg and thereafter significant decreases in TRβ mRNA levels were observed. p,p'-DDE induced significant 2-4-fold elevations of both TR isoforms in frog kidney. The strongest transcriptional effect of p,p'-DDE on TR isoforms was observed in the kidney. While TRα mRNA was not measurable in the liver, p,p'-DDE induced an initial 1.7-fold increase at 0.01mg/kg of TRβ mRNA and thereafter an apparent dose-dependent decrease was observed. The relative abundance of TRα and TRβ gene expression in different organs are in the order: kidney>testis>brain>liver. While the induction TRα and TRβ might result to hypersensitivity and subsequent gain of biological functions, the inhibition might result to loss of biological function. Given the high persistency in the environment and continued use in developing countries coupled with the tendency for global atmospheric transport, DDT and its metabolites such as p,p'-DDE will remain a focus of concern both for scientific and societal reasons.

Regulation of estrogen receptors in primary cultured hepatocytes of the amphibian Xenopus laevis as estrogenic biomarker and its application in environmental monitoring

The present study aims to introduce the regulation of estrogen receptors (ER) in primary cultured hepatocytes of the amphibian Xenopus laevis as a further potential estrogenic biomarker. Time courses of free ER in cell cultures treated with 17beta-estradiol (E2), nonylphenol (NP), and bisphenol A (BPA) were determined by means of radioreceptorassay (RARA). All compounds led to an immediate drop of free ER followed by a significant increase. The estrogen specific induction of ER-mRNA in vitro during time course was verified by using semiquantitative RT-PCR demonstrating greatest differences after 36 h. Dose-response curves of ER-mRNA for E2, NP, and BPA revealed that E2 possessed highest estrogenicity starting at 10(-9) M, while NP and BPA induced significant increases at 10(-8) and 10(-7) M, respectively. Extracts of the river Alb were subjected to RARA for ER binding to cytosolic liver fraction as well as to primary cultured hepatocytes for assessment of ER-mRNA induction. The results by RARA demonstrated clearly that binding to ER was highest in sewage treatment plant effluents and increased during the course of the river. These findings could be correlated with induction of ER-mRNA levels in vitro indicating that both techniques are suitable for application in monitoring of estrogenic EDC.

Plasma sex steroid and thyroid hormones profile in male water frogs of the Rana esculenta complex from agricultural and pristine areas

Some chemical compounds used in intensive agriculture have been found to induce estrogenic effects; therefore a histological analysis of the testes and an evaluation of plasma levels of sex steroid, thyroid hormones, and vitellogenin were carried out in adult male water frogs of two coexisting taxa (Rana lessonae and the hemiclonal hybrid Rana esculenta) sampled in agricultural and pristine areas. Differences in seasonal profiles of hormones were found in water frogs living in the agricultural area where the presence of endocrine disrupting compounds was suspected on the basis of a previous study. In R. esculenta, sampled in the pristine area, high androgen levels were found in May; the opposite trend was found for R. esculenta sampled in agricultural areas in which the highest androgen levels were found in September, significantly lower compared with those found in R. esculenta sampled in the pristine area. Low androgen levels were also recorded in R. lessonae males sampled both in pristine and agricultural areas, while the highest levels were found in September. Regarding the trend of estradiol-17beta, an increase of this hormone was found in July both in esculenta and lessonae sampled in the agricultural area, and in the same month an estradiol-17beta peak, even though lower, was also found both in esculenta and lessonae males captured in the pristine area; detectable vitellogenin was found neither in males captured in the agricultural area, nor in those sampled in the pristine one. Moreover, while no significant changes of thyroid hormones were found either in the esculenta or lessonae males sampled in the pristine area, increased T3 and T4 titers were found in July in both esculenta and lessonae captured in the agricultural area. Morphological differences of the testes in males of parental species captured in the agricultural area were also observed. These findings indicate alterations in endocrine and reproductive function in frogs in the agricultural area, that could suggest the presence of endocrine disrupting compounds.

Temporary impairment of reproduction in freshwater teleost exposed to nonylphenol

New born guppies, Poecilia reticulata, were exposed to a sublethal concentration of nonylphenol (NP) for 90 days, with the aim of evaluating the influence that this pollutant has on reproductive functions. At the end of treatment, the gender balance was significantly biased towards females (sex ratio = 0.3 males per female). Treated males displayed anomalous transcription of vitellogenin in correlation with a significant reduction of the gonadosomatic index (GSI); however, an increase of vitellogenin gene transcription, correlating directly with an increase in GSI, was observed in NP treated females. The hepatosomatic index (HSI) was significantly increased in exposed males and females. Females exposed to NP showed no alteration of sexual behavior or reproduction. These findings in guppies suggest that NP has estrogenic potency sufficient to disturb reproduction. Effects were transitory in nature because three months in uncontaminated water allowed males to recover normal sexual efficiency.

Multihormonal control of vitellogenesis in lower vertebrates

The comparative approach on how and when vitellogenesis occurs in the diverse reproductive strategies displayed by aquatic and terrestrial lower vertebrates is presented in this chapter; moreover, attention has been paid to the multihormonal control of hepatic vitellogenin synthesis as it is related to seasonal changes and to vitellogenin use by growing oocytes. The hormonal mechanisms regulating vitellogenin synthesis are also considered, and the effects of environmental estrogens on the feminization process in wildlife and humans have been reported. It is then considered how fundamental nonmammalian models appear to be, for vitellogenesis research, addressed to clarifying the yolkless egg and the evolution of eutherian viviparity.

Teratogenic and anti-metamorphic effects of bisphenol A on embryonic and larval Xenopus laevis

Effects of bisphenol A (BPA) on embryonic and larval development were investigated. In Xenopus laevis blastulae treated with 2.5-3.0 x 10(-5) M BPA or with 10(-5) M 17beta estradiol (E2), malformation of the head region, scoliosis (curved vertebrate), and suppression of organogenesis were observed. In addition, 10(-5)-10(-4) M BPA blocked tri-iodothyronine (T3)-inducible resorption of the tail segments from premetamorphic (stage 52-54) larvae in vitro. When stage 52 tadpoles were immersed in 1.0-2.5 x 10(-5) M BPA, deceleration of both spontaneous and thyroxin (T4)-induced metamorphic changes occurred. Furthermore, BPA suppressed thyroid hormone receptor (TR) beta gene expression both in vivo and in vitro. Thus, we concluded that BPA at the concentrations examined affects both embryonic development and larval metamorphosis.

Exposure to xenobiotic compounds: looking for new biomarkers

A variety of antropogenic compounds that have an estrogenic effect, and are known to be present in the environment, shows a significant potential for interference with the health and reproduction of both wildlife and humans. In this review, the effect of estrogenic and antiestrogenic chemicals with widely divergent potencies-nonylphenol (NP), which acts by binding with the estradiol response element, and beta-naphthoflavone (beta-NF), a dioxin-like compound that exerts its toxic action through the aryl hydrocarbon receptor-was compared with that induced by 17beta-estradiol (E(2)) in a marine teleost, the Gobius niger, under controlled laboratory experiments. The capacity of these compounds to affect the levels of estrogen-regulated proteins such as cathepsin D (CAT D)-in humans, a protein associated with the development of breast cancer, and, in oviparous vertebrates, with reproductive success-was assessed. The results of this study showed that both the estradiol and the higher dose of NP induce CAT D gene expression and its associated activity. On the contrary, beta-NF treatments inhibited CAT D gene expression and, at lengthier exposure (96 h), its enzymatic activity. Based on these results, we suggest CAT D as a novel bioindicator of the presence of endocrine-disrupting substances in the environment. The other biomarker assessed in this study is the Heath Shock Protein 70 (HSP70); this protein protects cells against harmful conditions by binding and refolding damaged proteins. Interestingly, HSP70 was found to be affected by all the toxicant compounds employed in the study. The HSP70 gene expression was significantly increased by both NP concentrations and the exposure time of beta-NF, with the E(2) being the most potent inducer. These data indicate that HSP70 may provide a useful early warning biomarker for studies on the presence of exogenous pollutants in the environment.