Expression of vitellogenin in the testis and kidney of the spotted ray Torpedo marmorata exposed to 17β-estradiol

Combined effects of pentachlorophenol and its byproduct hexachlorobenzene on endocrine and reproduction in zebrafish

Pentachlorophenol (PCP) and its byproduct hexachlorobenze (HCB) are two co-existing persistent environmental chemicals, but their combined toxicity remains unclear. In this study, adult zebrafish were exposed to 5 (low dose) and 25 μg·L^-1 (high dose) of PCP, HCB or their combination for 21 days, and the impact on endocrine and reproduction was investigated. Results showed that combined exposure to 25 μg·L^-1 PCP and 25 μg· L^-1 HCB significantly increased the plasma estradiol (E2) and testosterone (T) levels, altered the expressions of genes along the hypothalamic-pituitary-gonadal-liver (HPGL) axis, inhibited gonadal development, and eventually lead to decreased egg production of F0 zebrafish as well as inhibited development of F1 eggs/larvae. Compared to the combined exposure of high doses, significantly lower levels of plasma E2 and T were observed for either the high PCP or high HCB alone exposure, indicating a synergistic effect of the two chemicals on endocrine disruption after combination. Furthermore, the high PCP alone exposure inhibited the gonadal development in both the males and females, while the HCB alone exposure did not. Comparison of exposure effects indicated a greater decrease of mature gametes levels and egg production in the high combined group when compared to the high HCB alone group, but no significant difference was observed between the high combined group and the high PCP alone group. Taken together, the results suggested that combined exposure to PCP and HCB may synergistically affect endocrine of zebrafish, and result in reproduction impairments, with PCP being the primary contributor.

Ectopic synthesis of vitellogenin in testis and epididymis of estrogen-treated lizard Podarcis sicula

In oviparous vertebrates, vitellogenin (VTG) is the major yolk precursor synthesized in the liver of sexually mature females during the reproductive period. In males, the VTG gene is silent, but it may be activated by estradiol-17β (E2) or estrogen-like substances. Until now, extra-hepatic expression and synthesis of VTG after estrogen exposure has been reported only for aquatic vertebrates. This study demonstrates the ability of testis and epididymis of the terrestrial oviparous lacertid Podarcis sicula to synthesize VTG following E2 exposure. The results of in situ hybridization and immunohistochemistry analysis show the presence of both VTG mRNA and protein in these districts besides the known induction in the liver. The possible contemporaneous uptake of the E2-induced hepatic VTG by means of the specific vitellogenin receptor has been also evaluated. Finally, histological analysis shows that the E2-treatment during the mating season impairs spermatogenesis.

Role of PACAP on testosterone and 17β-estradiol production in the testis of wall lizard Podarcis sicula

Pituitary adenylate cyclase-activating peptide (PACAP) is a neuropeptide that in mammalian testis is involved in the control of testosterone and 17β-estradiol synthesis. A similar involvement was recently postulated in the testis of a nonmammalian vertebrate, the wall lizard Podarcis sicula. Indeed, we reported the presence of PACAP and its receptors throughout the reproductive cycle within both germ and somatic cells. Now, we investigated the effects of PACAP on steroidogenesis in significant periods of Podarcis reproductive cycle: winter stasis, reproductive period and summer stasis. Using different in vitro treatments, in the absence or presence of receptor antagonists, we demonstrated that in P. sicula testis PACAP is involved in the control of testosterone and 17β-estradiol production. In particular we demonstrated that treatment with PACAP induced a testosterone increase only in stasis periods (winter and summer stasis); differently they induced a 17β-estradiol production in all periods analyzed (summer stasis, winter stasis and reproductive period).

Interferences of an environmental pollutant with estrogen-like action in the male reproductive system of the terrestrial vertebrate Podarcis sicula

Nonylphenol (NP) is classified among the endocrine disruptor chemicals with estrogen-like properties. It is widely used in many industries and to dilute pesticides in agriculture, and is known to affect the reproductive system of many aquatic and semi-aquatic organisms. This study aimed to verify how NP, administered via food and water, may interfere with the reproductive cycle of a terrestrial vertebrate. Our model was the male Italian wall lizard Podarcis sicula, a seasonal breeding species that may be naturally exposed to environmental pollution. From our findings it emerges that an NP-polluted diet administered during the mating period causes in this lizard a slowdown of spermatogenesis and affects the testicular and epididymal structure, making it similar to that of the non-reproductive period. The distribution in the testis and epididymis of mRNA for steroid hormone receptors, i.e., estrogen α and β and androgen receptors, was also investigated. NP treatment inhibits the expression of AR, ERα, and ERβ-mRNA in spermatogonia and primary spermatocytes and causes a switch-off of the secretory activity of the epididymal corpus by inducing the expression of ERα.

Histopathological and estrogen effect of pentachlorophenol on the rare minnow (Gobiocypris rarus)

Pentachlorophenol (PCP), a typical organic pollutant and environmental endocrine disruptor, has been extensively used as a pesticide and biocide worldwide. In this study, the effects of PCP on the histological and hepatic system of the rare minnow (Gobiocypris rarus) were evaluated. Vitellogenin (VTG) was used as a biomarker to evaluate the estrogen effect of PCP. The results revealed that VTG was highly expressed and PCP exposure had histopathological effects on the rare minnow. Plasma and hepatic VTG concentrations increased when female rare minnows were exposed to ≥80 μg/L PCP and male rare minnows were exposed to 40 μg/L PCP (p < 0.05), which suggested that the VTG expression was evoked by PCP exposure. The results indicated that both plasma and liver tissue were suitable for VTG quantification. A significant decrease in the mRNA level of hepatic estrogen receptor-α (ERα) in male or juvenile was observed after exposure to ≥80 or ≥8 μg/L PCP, respectively; in contrast, increased mRNA levels of ERβ1, ERβ2, VTGI, and VTGII in male or juvenile were detected after exposure to ≥80 or ≥8 μg/L PCP, respectively. These results suggested that PCP has an estrogen effect and exists within different endocrine-disrupting pathways from other environmental contaminants. As such, VTG mRNA expression in the rare minnow may require transcription of the ERβ1 and ERβ2 genes.

Distribution of vitellogenin in zebrafish (Danio rerio) tissues for biomarker analysis

Vitellogenin (VTG), the precursor of yolk proteins, is a sensitive biomarker of estrogenic contamination in aquatic environments. Traditionally, VTG was believed to be synthesized under the control of estrogen in the livers of mature females and then secreted into the blood, before being taken up by the ovaries and cleaved into lipovitellin and phosvitin, which provide nutrition for developing embryos. However, recent studies have reported that the liver is not the only tissue to express VTG and this has led to questions over the precise tissue distribution of VTG in zebrafish. Moreover, studies in zebrafish on the expression of the VTG protein are rare. Using Western blotting and reverse-transcriptase polymerase chain reaction, this present study reports that the VTG protein and VTG1 mRNA were detected not only in the liver, but also in various extrahepatic tissues, including the heart, spleen, kidney, skin, muscle, gill, eye and brain tissues, of female and 17α-ethinylestradiol (EE2)-treated male zebrafish. Due to the high expression levels of VTG and the ease of taking samples, skin and eye tissues were chosen to evaluate the effects of varying doses and exposure times of EE2 on male zebrafish. The VTG gene and protein were induced by EE2 exposure in liver, skin and eye tissues of male zebrafish in dose- and time-dependent patterns. Therefore, we suggest that zebrafish skin and eye tissues may be alternatives to plasma and liver tissues for VTG biomarker analysis.

Exposure to estrogenic chemicals induces ectopic expression of vtg in the testis of rainbowfish, Melanotaenia fluviatilis

Vitellogenin (Vtg) is the major egg-yolk precursor protein in oviparous organisms normally synthesised only in mature females. In males and juveniles, the vtg gene, although present, is silent, but its hepatic expression may be activated by xenoestrogens. Surprisingly, its induction and potential consequences in non-hepatic tissues remain unexplored. Here we test the hepatic and testicular response of vtg expression in adult male rainbowfish Melanotaenia fluviatilis exposed to either 1, 3, 5 μg/L 17β-estradiol or 100, 500 μg/L 4-n-nonylphenol for 24-96 h. Significant increase in the expression level of vtg mRNA in the liver and testes of exposed males was observed. The early (24 h), sensitive and reliable detection of the vtg induction using qPCR demonstrates the assay's robustness to monitor xenobiotic exposure particularly in smaller fish like rainbowfish, an emerging indicator species. Whilst, the ectopic induction of vtg mRNA in testes suggests a more complex Vtg pathway.

Effects of steroid hormones on reproduction- and detoxification-related gene expression in adult male mosquitofish, Gambusia affinis

The molecular mechanisms that mediate fish reproduction and detoxification in response to steroid hormones were studied by using adult male western mosquitofish (Gambusia affinis) as sentinel species. The expression patterns of three vitellogenins (VtgA, VtgB and VtgC), two estrogen receptors (ERα and ERβ), two androgen receptors (ARα and ARβ), metallothionein (MT) and cytochrome P450 1A (CYP1A) in the liver and testis of adult male mosquitofish were assessed through exposure treatments with progesterone (P), testosterone (T) and 17β-estradiol (E2), alone and in combination for eight days. The results showed that expression patterns of Vtg subtype, ER subtype, AR subtype, MT and CYP1A genes in male mosquitofish varied according to tissue and specific hormone stress. Vtg subtype mRNA expression was induced in the liver in E2-added treatments, and an up-regulation of ERα mRNA expression was also observed. In addition, hormone treatments increased three Vtg subtype mRNA expression levels in the testis, at least to some extent. All hormone treatments significantly inhibited ERα, ERβ and ARβ mRNA expression in the testis. Some of hormone treatments could affect MT and CYP1A gene expression in mosquitofish. In general, multiple hormone treatments showed different effects on target gene expression compared with corresponding hormone alone. The results from the present study provided valuable information on the toxicological effects of steroid hormones in mosquitofish.

Hormonal effects of tetrabromobisphenol A using a combination of in vitro and in vivo assays

The aim of this study was to investigate the hormonal effects of tetrabromobisphenol A (TBBPA) in vitro on recombinant yeasts and in vivo on mosquitofish (Gambusia affinis). The in vitro bioassays for (anti-)androgenic activities showed that TBBPA had a weak androgenic activity in vitro with recombinant yeast systems carrying human androgen receptor (hAR). In the in vivo bioassays, the gene expression patterns of vitellogenin (Vtg), estrogen receptors (ERα and ERβ), and androgen receptors (ARα and ARβ) in adult males and juveniles after exposure to TBBPA for 60 days were evaluated. Significant up-regulation of Vtg, ERα, and ERβ mRNAs was observed in the liver after exposure to 500 nM of TBBPA. In the testis, the lowest concentration of TBBPA (50 nM) markedly induced Vtg, ERβ, and ARβ mRNA expression, but the same concentration significantly inhibited ARα mRNA expression. In addition, in juveniles, 100 nM of TBBPA significantly up-regulated the expression of Vtg, ERβ, and ARα mRNAs. However, TBPPA did not cause histological alterations in the liver and testis of adult male mosquitofish. The results from this present study suggest that TBBPA could display low but multiple hormonal activities despite its low toxicity to mosquitofish.