Substances that mimic endogenous hormones may alter the cell signaling that govern prostate development and predispose it to developing lesions in adult and senile life. Bisphenol A is able to mimic estrogens, and studies have demonstrated that low levels of exposure to this compound have caused alterations during prostate development. The aim of this study was to describe the prostate development in both male and female neonatal gerbils in normal conditions and under exposure to BPA during intrauterine life, and also to analyze whether the effects of intrauterine exposure to BPA remain in adulthood. Morphological, stereological, three-dimensional reconstruction, and immunohistochemical methods were employed. The results demonstrated that in 1-day-old normal gerbils, the female paraurethral glands and the male ventral lobe are morphologically similar, although its tissue components-epithelial buds (EB), periurethral mesenchyme (PeM), paraurethral mesenchyme (PaM) or ventral mesenchymal pad (VMP), and smooth muscle (SM)-have presented different immunolabeling pattern for androgen receptor (AR), and for proliferating cell nuclear antigen (PCNA). Moreover, we observed a differential response of male and female prostate to intrauterine BPA exposure. In 1-day-old males, the intrauterine exposure to BPA caused a decrease of AR-positive cells in the PeM and SM, and a decrease of the proliferative status in the EB. In contrast, no morphological alterations were observed in ventral prostate of adult males. In 1-day-old females, BPA exposure promoted an increase of estrogen receptor alpha (ERα) positive cells in PeM and PaM, a decrease of AR-positive cells in EB and PeM, besides a reduction of cell proliferation in EB. Additionally, the adult female prostate of BPA-exposed animals presented an increase of AR- and PCNA-positive cells. These results suggest that the prostate of female gerbils were more susceptible to the intrauterine BPA effects, since they became more proliferative in adult life. © 2015 Wiley Periodicals, Inc. Environ Toxicol 31: 1740-1750, 2016.
Prostate physiology is highly dependent on oestrogenic and androgenic homeostasis. Interferences in this equilibrium, especially in early periods of life, may disrupt the prostate and increase the susceptibility to the development of diseases with ageing. Taking this into account, and considering the increase of environmental chemicals with endocrine-disrupting potential such as bisphenol-A (BPA), this study aimed to evaluate the prostates of adult female gerbils exposed to BPA and BPA plus testosterone from pubertal to adult periods. Morphological, stereological and chemical analyses revealed that long-term BPA exposure, even in environmental dosages, increases the proliferative status of the prostate, increases the number of ERα-positive stromal cells and elicits the development of prostatic hyperplasia in adult female gerbils. Moreover, we also observed that the association with testosterone did not increase the proliferative status of the gland, which shows that low levels of BPA are enough to cause an oestrogenic disruption of the prostate in young adults. This evidence suggests that this oestrogenic endocrine disruptor may increase the susceptibility to prostatic disorders with ageing.
BACKGROUND: Microfluidics offers itself as a potential platform for optimizing microbial growth in different substrate concentrations using a single assay. The aim of this study was to construct a reversible microfluidic device for monitoring the bacterial growth in chambers with different substrate concentrations with its respective technical triplicates. The convective concentration gradient generator (CCG) system was constructed with three inlets for solutions with different concentrations that distributed them to the sequential cultivation chambers (CCs). A perfusion microbioreactor system (PM) was constructed using a commercial polydimethylsiloxane (PDMS) sheet and glass, with an adapted semi-permeable membrane system to constrain the cells within the CC. Cell growth of a fluorescent Escherichia coli JM109 was monitored by fluorescence microscope with time-lapse technique. RESULTS:The growth profile of E. coli with different streptomycin concentrations and its specific growth rates ( x ) in the microfluidics device ( x of 0.0088 and 0.0092 h −1 ) were compared in batch cultivations, which show no significant difference between the two methods. In addition, the half maximal inhibitory concentration (IC 50 ) values indicate that continuous perfusion surpasses consumption of the tested drug. CONCLUSION:The results demonstrate the efficiency of the microfluidic device for cell cultivation and its applicability in industrial biotechnology, allowing rapid screening of multiple parameters. Bacterial growth behavior within the PMSince fluorescent E. coli was used, cell growth behavior was easily momitored by analyzing fluorescence in the cultivation chambers (Supporting information S4). Two microbioreactor systems were built that differed with respect to the materials used in the cultivation chamber: (i) PDMS-PDMS (lateral wall and base) with hydrophobic characteristics; and (ii) PDMS (wall)-glass (base) with J Chem Technol Biotechnol 2019; 94: 712-720
The presence of the prostate in female mammals has long been known. However, pieces of information related to its development are still lacking. The aim of this study was to explore the budding dynamic during the initial prostate development in female gerbils. Pregnant females were timed, the fetuses were euthanized, and the urogenital sinus was dissected out between the embryonic days 20 and 24 (E20–E24 groups). Newborn pups (1-day-old; P1 group) underwent the same procedures. The female prostate development was based on epithelial buds which arose far from the paraurethral mesenchyme (PAM). The epithelial buds reached the PAM at prenatal day 24, crossing a small gap in the smooth muscle layer between the periurethral mesenchyme (PEM) and the PAM. Steroid nuclear receptors such as the androgen receptor and estrogen receptor alpha were localized in the PEM through the urethral wall, although some epithelial labeling was also present in the urogenital sinus epithelium (UGE). P63-positive cells were found only in the UGE, becoming restricted to the basal compartment after the 23rd prenatal day. The results showed that the gerbil female prostate exhibits a distinct budding pattern as compared to the male prostate development.
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