Objectives: Upregulation of syndecan-1, a member of the transmembranous proteoglycans that serves as a coreceptor for a wide pool of extracellular ligands, has been well documented in enabling the promotion of growth and invasion of endometrial cancer. As a step toward understanding a potential role for syndecan-1 in this process, we questioned whether syndecan-1 upregulates tumor-promoting characteristics, particularly, angiogenesis in an in vivo human xenograft tumor model. Methods: Human syndecan-1 was stably transfected into human endometrial adenocarcinoma 1A cells, and resulting transfectants were subcutaneously grafted into athymic mice; their outcomes were examined with respect to the enhancement of tumor growth and angiogenesis by immunohistochemistry, immunoblotting, and zymography. Results: Overexpression of syndecan-1 promoted tumor growth concomitant with increased angiogenesis in tumor xenografts as evidenced by an increase in immunoreactivity for vascular endothelial growth factor and vascular endothelial cell marker CD34. Furthermore, zymographic studies revealed that syndecan-1 overexpression markedly enhanced activities of matrix metalloproteinases 2 and 9. Conclusions: This is the first in vivo xenograft analysis providing evidence that supports that syndecan-1 has a critical role in carcinogenic progression, particularly, contributing to the development of angiogenesis and invasive phenotype in association with matrix metalloproteinases 2 and 9 activations in endometrial cancer.
Oxidative stress has been suggested to negatively affect oocyte and embryo quality and developmental competence, resulting in failure to reach full term. In this study, we investigated the effect of N-acetyl-L-cysteine (NAC), a cell-permeating antioxidant, on developmental competence and the quality of oocytes and embryos upon supplementation (0.1–10 mM) in maturation and culture medium in vitro using slaughterhouse-derived oocytes and embryos. The results show that treating oocytes with 1.0 mM NAC for 8 h during in vitro maturation attenuated the intracellular reactive oxygen species (ROS) (p < 0.05) and upregulated intracellular glutathione levels (p < 0.01) in oocytes. Interestingly, we found that NAC affects early embryonic development, not only in a dose-dependent, but also in a stage-specific, manner. Significantly (p < 0.05) decreased cleavage rates (90.25% vs. 81.46%) were observed during the early stage (days 0–2), while significantly (p < 0.05) increased developmental rates (38.20% vs. 44.46%) were observed during the later stage (from day 3) of embryonic development. In particular, NAC supplementation decreased the proportion of apoptotic blastomeres significantly (p < 0.05), resulting in enhanced hatching capability and developmental rates during the in vitro culture of embryos. Taken together, our results suggest that NAC supplementation has beneficial effects on bovine oocytes and embryos through the prevention of apoptosis and the elimination of oxygen free radicals during maturation and culture in vitro.
The difference between early pregnancy and delivery rate is quite large in assisted reproduction techniques (ARTs), including animal cloning. However, it is not clear why the implanted fetuses aborted after the early pregnancy stage. In the present study, we tried to evaluate the developmental and morphological characteristics of porcine parthenogenetically activated (PA) embryos or fetuses by electric stimulation during the early pregnancy period. The implanted PA and artificially inseminated (AI) embryos and fetuses were collected at day 26 and 35 after embryo transfer, respectively. The developmental and morphological parameters in the PA embryos at day 26 were similar to the AI embryos. The size, weight, formation of major organs, and apoptotic cells were not statistically different in both embryos at day 26. However, the PA fetuses at day 35 showed ceased fetal development and degenerated with abnormal morphologies in their organs. The day 35 PA fetuses showed significantly higher apoptotic cells and lower methylation status in three differentially methylated regions of the H19 gene compared to their comparators. Therefore, the normal development of PA embryos and fetuses during early gestation could lead to these pregnancies being misinterpreted as normal and become one of the main reasons for the gap between early pregnancy and delivery rate.
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