Effect of in utero exposure to di-(2-ethylhexyl)phthalate: distribution in the rat fetus and testosterone production by rat fetal testis in culture.

DEHP is known to cause reproductive toxicity in rats, particularly during the neonatal period. Pregnant and brood rats were treated by gavage with 750 mg/kgb.w./day DEHP starting on GD14 within PND4. Two hours after (14)C-DEHP administration on GD15, GD18, GD21 and PND4, the radioactivity content was measured in the dams blood and in the liver, gonads and carcass of the offspring. The radioactivity concentration recovered in the fetuses was one or two order of magnitude lower than the concentration found in the dam plasma. A low proportion of radioactivity was present in fetal gonads, ca. 2%, 5% and 3.6% on GD18, GD21 and PND4, respectively. The effect on testosterone production of DEHP and its metabolites (MEHP, metabolites VI and IX) was assessed in fetal testis cultures using a dose-range which included the maximal exposure observed in vivo. None of the compounds affected testosterone production. Thus, DEHP and/or its metabolites appear to cross the placental barrier, reach the fetal gonads. In vitro, neither DEHP nor its main metabolites decreased the testosterone production.

An investigation of the endocrine-disruptive effects of bisphenol a in human and rat fetal testes.

Few studies have been undertaken to assess the possible effects of bisphenol A (BPA) on the reproductive hormone balance in animals or humans with often contradictory results. We investigated possible direct endocrine disruption by BPA of the fetal testes of 2 rat strains (14.5-17.5 days post-coitum) and humans (8-12 gestational weeks) and under different culture conditions. BPA concentrations of 10(-8)M and 10(-5)M for 72 h reduced testosterone production by the Sprague-Dawley fetal rat testes, while only 10-5M suppressed it in the Wistar strain. The suppressive effects at 10-5M were seen as early as 24h and 48 h in both strains. BPA at 10(-7)-10(-5)M for 72 h suppressed the levels of fetal rat Leydig cell insulin-like factor 3 (INSL3). BPA exposure at 10(-8)M, 10(-7)M, and 10(-5)M for 72 h inhibited testosterone production in fetal human testes. For the lowest doses, the effects observed occurred only when no gonadotrophin was added to the culture media and were associated with a poorly preserved testicular morphology. We concluded that (i) BPA can display anti-androgenic effects both in rat and human fetal testes; (ii) it is essential to ascertain that the divergent effects of endocrine disruptors between species in vitro do not result from the culture conditions used, and/or the rodent strain selected; (iii) the optimization of each in vitro assay for a given species should be a major objective rather than the search of an hypothetical trans-species consensual model-system, as the organization of the testis is intrinsically different between mammalian species; (iv) due to the uncertainty existing on the internal exposure of the human fetal testis to BPA, and the insufficient number of epidemiological studies on the endocrine disruptive effects of BPA, caution should be taken in the extrapolation of our present results to the human reproductive health after fetal exposure to BPA.

Time- and dose-related effects of estradiol and diethylstilbestrol on the morphology and function of the fetal rat testis in culture.

UNLABELLED: The mechanisms underlying the action of estrogens in the fetal testis are still largely obscure. In particular, whether this action is direct or indirect remains largely unexplored. This study was aimed at investigating the effect of estradiol (E2) and diethylstilbestrol (DES) on the testis from 14.5-day-old rat fetuses in culture, at concentrations ranging from 4 x 10(-10) M (Kd of E2 for the estrogen receptors [ER]: 1-4 x 10(-10) M) to 4 x 10(-6) M (concentration previously shown in the literature to affect in vitro gonocyte proliferation). Exposure to DES and E2 decreased gonocyte number, the effects of DES being much more drastic than those of E2. Gonocyte number decreased in a concentration-dependent manner (day 3: -5%, -16%, and -80% at 4 x 10(-10) M, 4 x 10(-8) M, and 4 x 10(-6)M of DES, respectively), as well as in a time-dependent manner (at 4 x 10(-6) M DES: -31% on day 1, -60% on day 2, and -80% on day 3). This was due to a decrease in the gonocyte mitotic index and a dramatic increase in apoptosis. Importantly, in the presence of the anti-estrogen ICI 182.780 (ICI), the effect of DES was abolished. Sertoli cell number subsequently decreased (day 3), although the rate of apoptosis did not increase. These changes were less dramatic than those observed with gonocytes and were due to a decrease in Sertoli cell proliferation, which was not antagonized by ICI. Addition of 4 x 10(-6) M DES had no effect on basal Sertoli cell cyclic adenosine 5'-monophosphate (cAMP) levels or on follicle-stimulating hormone (FSH)-stimulated cAMP production after adjustment for Sertoli cell number. Finally, estrogens reduced both Leydig cell number (-26% on day 3, 4 x 10(-6) M DES) and basal and luteinizing hormone (LH)-stimulated testosterone production. The latter effects were antagonized by ICI. IN CONCLUSION: 1) E2 and DES induce alterations in the germ line and in somatic cells; 2) gonocyte alteration was the first event detected, and the action of estrogens at this level was mediated by ER, as is the case in Leydig cells; and 3) these data should help us to understand estrogen effects on the fetus and should be considered in the context of the debate on environmental estrogens.

Molecular cloning of several rat ABC transporters including a new ABC transporter, Abcb8, and their expression in rat testis.

Several members of the ABC transporter superfamily play an important role in testicular physiology and defence against anticancer drugs. Using a reverse transcription-polymerase chain reaction strategy with degenerate primers and rat testis RNA as template, we have looked for the presence of other members of this superfamily. Of the six partial cDNA found, five corresponded to ABC transporters already known -Mdr1b, Mrp1, Tapl/Abcb9, Umat/Abcb6 and Sur2/Abcc9- and one presented a strong homology with mouse and human ABCB8. Using a 5' and 3' RACE approach, we cloned the full-length cDNA and found that the predicted protein presented 92% and 80% homology with the mouse and human proteins respectively. Strong expression of rat abcb8 was found in heart, brain and testis when compared with liver, lung and spleen. In the testis, rat abcb8 was expressed both in the somatic Sertoli cells and peritubular cells and in the germline (spermatogonia and pachytene spermatocytes). Furthermore, Umat/Abcb6 was very highly expressed in the testis (high amounts in meiotic pachytene spermatocytes and low amount in post-meiotic early spermatids). In conclusion, we confirm the presence of several ABC transporters in the testis and also provide evidence of the presence of Abcb8 in the organ.