The production of plastic products, which requires phthalate plasticizers, has resulted in the problems for human health, especially that of reproductive health. Phthalate exposure can induce reproductive disorders at various regulatory levels. The aim of this review was to compile the evidence concerning the association between phthalates and reproductive diseases, phthalates-induced reproductive disorders, and their possible endocrine and intracellular mechanisms. Phthalates may induce alterations in puberty, the development of testicular dysgenesis syndrome, cancer, and fertility disorders in both males and females. At the hormonal level, phthalates can modify the release of hypothalamic, pituitary, and peripheral hormones. At the intracellular level, phthalates can interfere with nuclear receptors, membrane receptors, intracellular signaling pathways, and modulate gene expression associated with reproduction. To understand and to treat the adverse effects of phthalates on human health, it is essential to expand the current knowledge concerning their mechanism of action in the organism.
The aim of the present study was to investigate the role of RNA polymerase I (RPI) transcription in nucleolar development during major transcriptional activation (MTA) in cattle. Late eight-cell embryos were cultured in the absence (control group) or presence of actinomycin D (AD) (RPI inhibition, AD 0.2 microg/ml; total transcriptional inhibition, AD 2.0 microg/ml). Late four-cell embryos were cultured to late eight-cell stage in 0.2 microg/ml AD (MTA prevention, ADLT (long-term total transcriptional inhibition group). Embryos were processed for autoradiography, transmission electron microscopy, fluorescent in situ hybridization (ribosomal RNA, rRNA), silver staining (nucleolar proteins), and immunofluorescence (RPI). Control embryos displayed extranucleolar and nucleolar transcription, functional nucleoli, and distinct RPI localization. Nuclei (97%) showed large rRNA clusters, in 94.1% co-localized with nucleolar proteins deposits. In AD 0.2 group, only extranucleolar transcription was detected. Segregated dense-fibrillar and granular components, but no fibrillar centers, were observed. RPI was dispersed. Nuclei (55%) presented rRNA clusters, in 38.8% co-localized with silver-stained deposits. AD 2.0 and ADLT groups displayed no transcription and disintegrating nucleolar precursors. AD 2.0 (34%) and 14% (ADLT) of nuclei presented clusters of maternally inherited rRNA. In AD 2.0 group, RPI was dispersed, but 17.2% of nuclei showed colocalization of rRNA with nucleolar proteins. In ADLT group, RPI was lacking and clustering of nucleolar proteins was hampered. In conclusion, rDNA transcription is not required for targeting of rRNA processing proteins, rRNA is maternally inherited and target to rDNA independent of transcription, and de novo transcription is required for proper nucleologenesis in cattle.
Spot urine samples were collected in summer and winter season to examine the association between temperature variation and phthalate concentration in an occupationally exposed group. We analysed samples by high-performance liquid chromatography with mass spectrometry (HPLC-MS/MS) to determine the concentrations of four phthalate metabolites: mono (2-ethylhexyl) phthalate (MEHP), monobutyl phthalate (MnBP), monoethyl phthalate (MEP), and monoisononyl phthalate (MiNP). We observed significantly higher urinary concentrations of all monitored phthalate metabolites collected during the summer in occupationally exposed group (MEP p < 0.0015, MiNP p < 0.0001, MnBP p < 0.00019, and MEHP p < 0.05); however, in general, population was noticed this difference only for MEHP (p < 0.05) in winter season. We conclude that increasing indoor and outdoor temperature is related to phthalate exposure in specific types of work environment.
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