Gene expression is altered after bisphenol A exposure in human fetal oocytes in vitro.

Bisphenol A (BPA) is a 'weak' endocrine disruptor. The effect of BPA on human reproduction is controversial but has been related to meiotic anomalies, recurrent spontaneous abortion, abnormal karyotypes, the diminishing of oocyte survival, delay in meiotic progression and an elevated rate of MLH1 foci in vitro. The aim of this study is to characterize the gene expression of human fetal oocytes in culture as well as to evaluate the effect of BPA in cultured human oocytes. To accomplish our objective, 12 ovaries from 6 euploid fetuses were used. The ovarian fetal tissue was cultivated in two groups: control group and BPA group (BPA30 µM). The cultures were analyzed at T0 and after 7 (T7), 14 (T14) and 21 (T21) days of culture. Evaluation of gene expression was performed by real-time PCR (RT-PCR), with the evaluated genes being: Smc1ß, Sycp1 (pairing-synapsis), Spo11, Rpa, H2ax, Mlh1 and Blm [double-strand break (DSBs) generation, signaling and repair], Erα, Erß and Errγ (estrogen receptors), Stra8 and Nalp5 (markers of meiotic progression). Oocytes from ovaries cultured and treated with BPA show changes in the expression of Spo11, H2ax and Blm genes, with a significant increase from 3- to 5-fold (P≤ 0.05). Finally, Rpa, showed a 100-fold increment (P≤ 0.01). Erα, Erß and Errγ genes showed a BPA up-regulation of 2-4-fold in all of the culture times (P≤ 0.05). Oocytes exposed to BPA showed an up-regulation of genes involved in DSB generation, signaling and repair except by Mlh1. Thus, BPA can modify the gene expression pattern, which may explain the effects of BPA on female germ cells.

Human meiotic progression and recombination are affected by Bisphenol A exposure during in vitro human oocyte development.

BACKGROUND: Bisphenol A (BPA) is a 'weak' endocrine disruptor. The effect of BPA on human reproduction is controversial but has been related to meiotic anomalies, recurrent miscarriages and abnormal karyotypes. METHODS: To evaluate the effects of BPA on survival, pairing-synapsis and meiotic recombination of human fetal oocytes, 21 510 oocytes from 12 cultured fetal ovaries were analyzed. Ovaries were cultured for 7, 14 or 21 days in control medium, dimethylsulfoxide-medium, BPA-medium and estradiol (E(2))-medium. Meiotic pairing-synapsis and recombination were studied by immunofluorescence against lateral element protein, central element protein of the synaptonemal complex and chromosome axis cohesin REC8. Mismatch repair protein, MLH1, was used as a crossover (CO) marker. Meiotic progression was analyzed following the number of surviving oocytes at different meiotic stages found in each culture time and condition, and the total number of MLH1 foci found in oocytes from cultured ovaries. RESULTS: Oocyte survival in vitro decreased with the addition of BPA to the medium (1 µM or greater). Oocyte degeneration was up to five times higher when BPA was added to culture medium. Moreover, oocytes exposed to BPA concentrations of 10 µM or higher presented approximately two times more MLH1 foci than unexposed cultured oocytes (P = 0.01). This was also observed in chromosome 21 from BPA-exposed oocytes, which had double the average number of MLH1 foci found in control oocytes (P = 0.001). E(2) was used as a positive control of estrogen receptors activity, and E(2) addition to the medium had similar effects on meiotic progression of oocytes from cultured ovaries. CONCLUSIONS: Our findings show that BPA concentrations of 1 µM or higher decrease the survival of human fetal oocytes in vitro, and concentrations of 10 µM or higher increase MLH1 foci number. MLH1 is considered a CO marker, and thus an increase in MLH1 foci could indicate an increase in COs in BPA-exposed oocytes. These data suggest that BPA can act as a toxic substance, which has particular implications for human females and the critical events of meiotic prophase, such as pairing-synapsis and recombination processes, as well as oocyte survival.

A new culture technique that allows in vitro meiotic prophase development of fetal human oocytes.

BACKGROUND: Little is known about the mechanisms that regulate meiosis in the human female fetus as a result of the technical difficulties in obtaining samples. Currently, there is no technique for human fetal oocyte culture that permits the maintenance of fetal ovarian tissue in vitro which allows the progression of meiosis in a reproducible and standardized way. METHODS: Meiotic progression was analyzed following pairing-synapsis and recombination progress. A total of 7119 oocytes were studied and analyzed. The proteins used to evaluate meiotic progression were: REC8, SYCP1, SYCP3 and MLH1, studied by immunofluorescence. Four different sample disaggregating methods were used, two enzymatic (trypsin and collagenase + hyaluronidase) and two mechanical (puncture and ovarian fragments). Two different culture media were used, control media and stem cell factor (SCF)-supplemented media. The oocytes were studied at initial time T0, and then at T7, T14 and T21 days after culture. RESULTS: The mechanical methods increased the total number of oocytes found at the different times of culture and decreased the number of degenerated oocytes. Independently of the disaggregation method used, oocytes cultured with SCF-supplemented media showed a higher proportion of viable oocytes and fewer degenerated cells at all culture timepoints. No evidence of abnormal homologous chromosome synapsis was observed. Meiotic recombination was only observed in oocytes mechanically disaggregated and cultured with supplemented media. CONCLUSIONS: The oocytes obtained by mechanical disaggregating methods and cultured with SCF-supplemented media are able to follow pairing-synapsis and recombination, comparable to oocytes in vivo. The culture conditions described herein confirm the methodology as a standardized and reproducible method.