A new low molecular weight fluorescent probe, Col-F, that exhibits affinity to collagen and elastin, was used successfully in imaging of extracellular matrix in freshly excised animal tissues. Col-F readily penetrates between live cells into tissues and binds to fibers of collagen and elastin by a noncovalent mechanism. Fibers of collagen and elastin have been stained in a variety of tissues, including tendon, skeletal muscle, connective tissue, and arteries. Cells migrating in a Col-F-stained collagenous biomaterial were also imaged. No phototoxic effects were detected when live keratocytes were imaged in the in vitro culture in the presence of Col-F. In conclusion, Col-F provides a simple and convenient tool for fluorescence three-dimensional imaging of intricate collagenous and elastic structures in live and fixed animal tissues, as well as in collagen-containing biomaterials.
This study was designed to reveal the FSHR mRNA and protein expression in the neonatal porcine ovary and to determine whether maternal administration of antiandrogen flutamide may affect FSHR expression in the ovary of newborn piglets using real-time PCR, immunohistochemistry and Western blot analysis. Pregnant sows were injected with flutamide at a dose of 50 mg/kg body weight, given five times, every second day, starting at day 20 post-coitum (p.c.) or day 80 p.c., and ovaries were obtained from neonatal pigs. The FSHR mRNA expression was significantly decreased after flutamide administration. Furthermore, higher down-regulation was observed following exposure to antiandrogen at day 20 than at day 80 p.c. Immunohistochemistry showed the positive immunostaining for FSHR in the oocytes, granulosa cells of primary follicles and the surface epithelium of the ovaries from both control and flutamide-treated pigs. However, oocytes and granulosa cells of primary follicles in the ovaries exposed in utero to flutamide were weakly immunostained when compared to those in the control ones. The presence of FSHR protein in all investigated ovaries was confirmed by Western blot analysis. Based on our findings, we suggest that FSHR may be involved in the early follicle formation in pigs, which begins during prenatal life. Furthermore, the regulation of FSHR mRNA and protein expression in neonatal porcine ovaries after maternal exposure to flutamide confirms that androgens play a crucial role in porcine folliculogenesis at the early stages.
In this study, G-coupled estrogen receptor (GPER) was inactivated, by treatment with antagonist (G-15), in testes of C57BL/6 mice: immature (3 weeks old), mature (3 months old) and aged (1.5 years old) (50 μg/kg bw), as well as MA-10 mouse Leydig cells (10 nM/24 h) alone or in combination with 17β-estradiol or antiestrogen (ICI 182,780). In G-15-treated mice, overgrowth of interstitial tissue was found in both mature and aged testes. Depending on age, differences in structure and distribution of various Leydig cell organelles were observed. Concomitantly, modulation of activity of the mitochondria and tubulin microfibers was revealed. Diverse and complex GPER regulation at the mRNA level and protein of estrogen signaling molecules (estrogen receptor α and β; ERα, ERβ and cytochrome P450 aromatase; P450arom) in G-15 Leydig cells was found in relation to age and the experimental system utilized (in vivo and in vitro). Changes in expression patterns of ERs and P450arom, as well as steroid secretion, reflected Leydig cell heterogeneity to estrogen regulation throughout male life including cell physiological status.We show, for the first time, GPER with ERs and P450arom work in tandem to maintain Leydig cell architecture and supervise its steroidogenic function by estrogen during male life. Full set of estrogen signaling molecules, with involvement of GPER, is crucial for proper Leydig cell function where each molecule acts in a specific and/or complementary manner. Further understanding of the mechanisms by which GPER controls Leydig cells with special regard to male age, cell of origin and experimental system used is critical for predicting and preventing testis steroidogenic disorders based on perturbations in estrogen signaling.
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