Ryuta Ishimura

Bisphenol-A Affects Spermatogenesis in the Adult Rat Even at a Low Dose.

Bisphenol‐A Affects Spermatogenesis in the Adult Rat Even at a Low Dose: Motoharu Sakaue,et al. Environmental Health Sciences Division, National Institute for Environmental Studies—Bisphenol‐A (BPA), a xenobiotic estrogenic compound widely used as a plastics monomer, has been suspected to have a so‐called low dose effect on the reproductive system when administered transplacentally. In the present study, we investigated possible low‐dose effects of BPA on spermatogenesis in adult rats. Male rats (13 weeks old; W13) were administrated a daily oral dose of BPA, ranging from 2 ng to 200 mg/kg, for 6 days and examined for testicular weight (TW) and daily sperm production (DSP) at W14 and W18. A BPA dose as low as 20 jug/kg tended to decrease TW and significantly reduced both DSP and the efficiency of spermatogenesis (DSP per gram testis) at W18, showing that BPA suppressed a normal increase in DSP and TW from W13 to W18. A single administration of 20 fig BPA/kg to W13 rats affected the intensity or mobility of several protein spots in the testicular cytosol fraction as shown by two‐dimensional gel electrophoresis analysis. The present study showed that BPA at a low dose affects spermatogenesis in the adult rat.

Exposure of Mouse Preimplantation Embryos to 2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) Alters the Methylation Status of Imprinted Genes H19 and Igf2

Abstract 2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) is an extremely toxic, persistent environmental contaminant that disrupts normal development in laboratory animals. In our earlier study, we found that exposure of preimplantation embryos to TCDD markedly induced cytochrome P4501A1 mRNA at the blastocyst stage. In the present study, to determine whether exposure of preimplantation embryos to TCDD affects fetal growth, we exposed preimplantation embryos to TCDD from the 1-cell stage to the blastocyst stage and then transferred them to unexposed recipient mice. On Embryonic Day 14, the fetuses exposed to TCDD during the preimplantation stage weighed less than the fetuses in the unexposed control group. Real-time reverse transcription-polymerase chain reaction analysis revealed that exposure of preimplantation embryos to TCDD tended to decrease the expression levels of the imprinted genes H19 and Igf2 (insulin-like growth factor 2 gene). Use of bisulfite genomic sequencing demonstrated that the methylation level of the 430- base pair H19/Igf2 imprint control region was higher in TCDD- exposed embryos and fetuses than in the controls, and methyltransferase activity was also higher in the TCDD-exposed embryos than in the controls. To our knowledge, the present study is the first to provide evidence that TCDD exposure at the preimplantation stage alters the genomic DNA methylation status of imprinted genes, influences the expression level of imprinted genes, and affects fetal development.

Dioxin-induced toxicity on vascular remodeling of the placenta.

Arylhydrocarbon receptor (AhR) activated by 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) triggers its downstream signaling pathway to exert adverse effects on vasculature development, which can be initiated by vasculogenesis, followed by angiogenesis, or vascular remodeling, in a variety of animals including avians, piscines and mammals. The placenta, a mammalian organ rich in vasculature, consists of endothelial and trophoblast cells of fetal origin, which proliferate and differentiate under hypoxic condition in the uterine horn. Our studies demonstrated that vascular remodeling occurs prominently in the placenta of the control Holtzman rat strain during the late period of gestation, and induces changes in cell shape and elimination by apoptosis of trophoblasts. As a result, the net volumes of both maternal and fetal blood in the placenta increase to cope with the essential requirements of oxygen and nutrients in the late period of gestation. On the other hand, in utero exposure to TCDD markedly suppressed the development of sinusoids and trophoblast cells and the apoptosis of trophoblast cells with a concomitant increase in the incidence of fetal death under hypoxic condition. A crosstalk between the hypoxia-inducible factor (HIF)-mediated pathway and AhR-mediated pathway is considered to play an important role in this physiological process. No such changes were observed in the Sprague-Dawley rat strain that turned out to have an AhR conformation identical to that of the Holtzman rat strain. In this commentary, we will discuss a possible link of the TCDD toxicities with the AhR signaling pathway and gestation-related diseases.

Comparative Contribution of the Aryl Hydrocarbon Receptor Gene to Perinatal Stage Development and Dioxin-Induced Toxicity Between the Urogenital Complex and Testis in the Mouse

Abstract TCDD (2,3,7,8-tetrachlorodebenzo-p-dioxin) requires the presence of the aryl hydrocarbon receptor (Ahr) gene for its toxic effects, such as reproductive disorders in male offspring of maternally exposed rats and mice. To study the involvement of the Ahr gene in producing the toxic phenotype with respect to testicular development, we administered a relatively high dose of TCDD to mice with three different maternally derived Ahr genotypic traits, and then compared several Ahr-dependent alterations among male reproductive systems on Postnatal Day 14. Reduction in anogenital distance and expression of prostatic epithelial genes in the urogenital complex (UGC) were detected in Ahr+/+ and Ahr+/− mice exposed to TCDD, whereas no difference was observed in Ahr−/− mice. In situ hybridization revealed the absence of probasin mRNA expression in the prostate epithelium, despite the obvious development of prostatic lobes in TCDD-exposed mice. In contrast to obvious prostatic dysfunction and induction of cytochrome P450 (CYP) family genes in the UGC by TCDD, no alterations in testicular functions were observed in germ cell/Sertoli cell/interstitial cell marker gene expression or CYP family induction. No histopathological changes were observed among the three genotypes and between control and TCDD-exposed mice. Therefore, mouse external genitalia and prostatic development are much more sensitive to TCDD treatment than testis. Further, the Ahr gene, analyzed in this study, does not significantly contribute to testicular function during perinatal and immature stages, and the developing mouse testis appears to be quite resistant to TCDD exposure.