Efeitos da exposição crônica à poluição atmosférica particulada sobre o desenvolvimento embrionário pré-implantacional in vitro em camundongos / Effects of chronic exposure to particulate air pollution on in vitro preimplantation embryo development in mice

AUTOR(ES)
DATA DE PUBLICAÇÃO

2008

RESUMO

A thematic research project to evaluate the health effects of acute/chronic exposure to ambient air in a large urban center was developed at the Air Pollution Laboratory in the Department of Pathology at the University of São Paulo School of Medicine. Within this project a specific research line was committed to the study of the effects of this exposure on female reproductive health. Evidence from epidemiological and experimental studies implied environmental factors as possible contributors to human infertility and poor obstetric outcome. However, very few studies evaluating a possible effect of exposure to particulate air pollution on female reproductive health have been conducted so far. Thus, the aim of the projects in my research line was to provide data that could show the possible effects of chronic exposure to particulate air pollution on ovarian function and early embryo development. The objective of the first project was to assess different methodologies used in cell lineage differential staining of the blastocyst, a method for more accurate evaluation of its quality and normality. Cells of zona-intact mouse blastocysts obtained from in vitro fertilization (IVF) were permeabilized and stained using different concentrations of a detergent (TX-100; 0.5% or 1%) and propidium iodide (PI; 50 g/mL or 100 g/mL) followed by overnight incubation in a solution containing different fixatives (ethanol, methanol, paraformaldehyde - PFA 1% or 4%) and bisbenzimide. To evaluate the staining quality and count the nuclei differentially, blastocysts were mounted and viewed using epifluorescence microscopy. Staining quality scores were significantly different (P <0.05) among all fixative solutions with the highest for ethanol followed by methanol, PFA1%, and PFA4%. Changes in PI concentration and use of different fixative solutions revealed significant effects on inner cell mass (ICM) cell count and ICM/trophectoderm (TE) ratio. Different concentrations of the detergent used for cell permeabilization showed significant effects on TE cell counts and ICM/TE ratio. I concluded that the protocol using 1% TX-100 for cell permeabilization, 50 g/mL of PI for TE cell staining, and ethanol as a fixative solution is the most efficient method for cell lineage differential staining and counting at the blastocyst stage. In the second project the objective was to evaluate the effects of preand/ or postnatal exposure to ambient air on fertilization, embryo development, and cell lineage segregation in preimplantation blastocysts using the IVF mouse model. Six-week old superovulated mice were preand/ or postnatally exposed to filtered air (FA-FA), filtered-ambient air (FAAA), or ambient air (AA-AA) in exposure chambers 24/7 for nine weeks. Reproductive endpoints evaluated included gestation length, litter size, litter birth weight, live birth index, sex ratio, ovarian response to superovulation, fertilization rate, embryo development, blastocyst and hatching rates, total cell count, and proportion of cell allocation to ICM and TE. Gestation length, litter size, litter birth weight, live birth index, and sex ratio were similar among exposure groups. Ovarian response was not affected by the exposure protocol. A multivariate effect for pre- and/or postnatal exposure to ambient fine particulate matter on IVF, embryo development, and blastocyst differential staining was found. Cell counts in ICM and ICM/TE ratios in blastocysts produced in the FA-FA protocol were significantly higher than in blastocysts produced in FA-AA and AA-AA protocols. No difference in the total cell count was observed. Based on these observations the study suggests that exposure to ambient fine particulate matter in a large urban center may negatively affect female reproductive health by disrupting the lineage specification at the blastocyst stage. Finally, the purpose of the third project was to evaluate the effects of pre- and/or postnatal exposure to particulate air pollution on fertilization, embryo development, and cell lineage segregation in preimplantation blastocysts during the late-life reproductive period using the IVF mouse model. Five-month-old superovulated mice were pre- and/or postnatally exposed to filtered air (FA-FA), filtered-ambient air (FA-AA), or ambient air (AA-AA) in exposure chambers 24/7 during six months. Reproductive endpoints were the same as the ones selected for the second project. Gestation length, litter size, litter birth weight, live birth index, and sex ratio were similar among exposure groups. Ovarian response was not affected by the exposure protocol. A multivariate effect for pre- and/or postnatal exposure to ambient air on blastocyst differential staining but not on IVF and embryo development was found. Cell counts in ICM and ICM/TE ratios in blastocysts produced in the FA-FA protocol were significantly higher than in blastocysts produced in FA-AA and AA-AA protocols. Cell counts in TE cells in blastocysts produced in the FA-FA protocol were significantly lower than in blastocysts produced in FA-AA and AA-AA protocols. The total cell count was similar among groups. This study suggests that exposure to particulate air pollution in a large urban center has no effect on ovarian function but may negatively affect female reproductive health in the late-life period by disrupting the lineage specification at the blastocyst stage.

ASSUNTO(S)

blastocisto blastocyst inner cell mass camundongos fertilization in vitro fertilização in vitro coloração e rotulagem desenvolvimento embrionário mice poluição do ar massa celular interna do blastocisto staining and labeling blastocyst air pollution reproduction reprodução embryonic development material particulado particulate matter

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