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Arsenault Glerup posted an update 6 months, 2 weeks ago
Placental extravillous trophoblast remodeling of the uterine spiral arteries is important for promoting blood flow to the placenta and fetal development. Heparin-binding epidermal growth factor-like growth factor (HB-EGF), an EGF family member, stimulates differentiation and invasive capacity of extravillous trophoblasts in vitro. Trophoblast expression and maternal levels of HB-EGF are reduced at term in women with preeclampsia, but it is uncertain whether HB-EGF is downregulated earlier when it may contribute to placental insufficiency. A nonhuman primate model has been established in which trophoblast remodeling of the uterine spiral arteries is suppressed by shifting the rise in estrogen from the second to the first trimester of baboon pregnancy. In the present study, we used this model to determine if placental HB-EGF is altered by prematurely elevating estrogen early in baboon gestation. Uterine spiral artery remodeling and placental expression of HB-EGF and other EGF family members were assessed on day 60 of gestation in baboons treated with estradiol (E2) daily between days 25 and 59 of gestation (term = 184 days). The percentages of spiral artery remodeling were 90%, 84% and 70% lower (P100 µm diameter in E2-treated compared with untreated baboons. HB-EGF protein quantified by immunocytochemical staining/image analysis was decreased 3-fold (P less then 0.01) in the placenta of E2-treated versus untreated baboons, while amphiregulin (AREG) and EGF expression was unaltered. Therefore, we propose that HB-EGF modulates the estrogen-sensitive remodeling of the uterine spiral arteries by the extravillous trophoblast in early baboon pregnancy.Human reproductive success depends on a properly decidualized uterine endometrium that allows implantation and the formation of the placenta. At the core of the decidualization process are endometrial stromal fibroblasts (ESF) that differentiate to decidual stromal cells (DSC). As variations in oxygen levels are functionally relevant in endometrium both upon menstruation and during placentation, we assessed the transcriptomic responses to hypoxia in ESF and DSC. In both cell types hypoxia upregulated genes in classical hypoxia pathways such as glycolysis and the epithelial mesenchymal transition. In DSC hypoxia restored an ESF like transcriptional state for a subset of transcription factors that are known targets of the progesterone receptor, suggesting that hypoxia partially interferes with progesterone signaling. In both cell types hypoxia modified transcription of several inflammatory transcription factors that are known regulators of decidualization, including decreased transcription of STATs and increased transcription of CEBPs. We observed that hypoxia upregulated genes in ESF and DSC had a significant overlap with genes previously detected to be upregulated in endometriotic stromal cell. Promoter analysis of the genes in this overlap suggested the hypoxia upregulated Jun/Fos and CEBP transcription factors as potential drivers of endometriosis-associated transcription. Using immunohistochemistry we observed increased expression of JUND and CEBPD in endometriosis lesions compared to healthy endometria. Overall the findings suggest that hypoxic stress establishes distinct transcriptional states in ESF and DSC, and that hypoxia influences the expression of genes that contribute to the core gene regulation of endometriotic stromal cells.Reduced fertility of male mouse hybrids relative to their parents, or hybrid sterility, is governed by the hybrid sterility 1 (Hst1) locus. Rescue experiments with transgenes carrying sequences within or near Hst1 manifested that Hst1 contains the gene encoding meiosis-specific histone methyltransferase PRDM9. The Prdm9 gene is responsible for partial meiotic arrest, testicular atrophy, and low sperm count in (C57BL/6J x PWD)F1 mouse hybrids. Ovalbumins Immunology chemical Here we report that these male hybrids suffer an additional reproductive disadvantage, decreased sperm quality, which is (i) further exacerbated by the introduction of long transgene(s) carrying sequences from Hst1 with incomplete Prdm9 into their genome, and (ii) controlled by the Prdm9 dosage. These transgenic male hybrids displayed the features of severe oligoasthenoteratozoospermia (OAT), a human infertility syndrome characterized by a low number of spermatozoa with poor motility and morphological abnormalities. Analysis of spermiogenesis in these mice revealed acrosome detachment, aberrant elongation and condensation of the nucleus. As a result, the transgenic sperm had acrosome malformations, abnormal chromatin packaging, and fragmented DNA with elevated base oxidation, revealed by using multiple methods. Heterozygosity for one null Prdm9 allele improved meiotic progression and sperm quality of both non- and transgenic hybrids. Our results indicate that genomic analysis of OAT patients should include consideration of allelic variants in PRDM9, and our transgenic models can serve as tools to understand the diverse molecular processes that, when perturbed, can cause this disease.As a collection of metabolic abnormalities including inflammation, insulin resistance, hypertension, hormone imbalance, and dyslipidemia, maternal obesity has been well-documented to program disease risk in adult offspring. Although hypercholesterolemia is strongly associated with obesity, less work has examined the programming influence of maternal hypercholesterolemia (MHC) independent of maternal obesity or high fat feeding. This study was conducted to characterize how MHC per se impacts lipid metabolism in offspring. Female (n=6/group) C57BL/6J mice were randomly assigned to (i) a standard chow diet (Control, CON) or (ii) the CON diet supplemented with exogenous cholesterol (CH) (0.15%, w/w) throughout mating and the gestation and lactation periods. At weaning and adulthood (PND 84), male offspring were characterized for blood lipid and lipoprotein profile and hepatic lipid endpoints, namely cholesterol and triglyceride (TG) accumulation, fatty acid profile, TG production, and mRNA expression of lipid-regulatory genes. Both newly-weaned and adult offspring from CH mothers demonstrated increased very low-density lipoprotein (VLDL) particle number and size and hepatic TG and n-6 polyunsaturated fatty acid accumulation. Further, adult CH offspring exhibited reduced fatty acid synthase (FAS) and increased diglyceride acyltransferase (DGAT) mRNA expression. These programming effects appear to be independent of changes in hepatic TG production and postprandial lipid clearance. Study results suggest that MHC, independent of obesity or high fat feeding, can induce early changes to serum VLDL distribution and hepatic lipid profile that persist into adulthood.
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