Project description:Genome wide DNA methylation profiling of decidua samples from unexplained recurrent spontaneous abortion patients and controls with induced abortions. The Infinium Human Methylation 850K BeadChip was used to obtain DNA methylation profiles across approximately 853,307 CpGs in decidua samples . Samples included 2 normal pregnant women (non-medical reasons for abortion) and 4 unexplained recurrent spontaneous abortion patients.
2018-07-12 | GSE113600 | GEO
Project description:Small RNA sequencing of decidua in patients with unexplained recurrent spontaneous abortion
Project description:RNA sequencing analysis of decidua tissues from unexplained recurrent spontaneous abortion patients and controls with induced abortions
Project description:Genome wide DNA methylation profiling of chorionic villi and decidua from recurrent miscarriage patients and artificial abortion controls. Infinium HumanMethylation450 BeadChip was used.
Project description:Perfect fetal development is a solid foundation for successful fertility, in which the abundant natural killer (NK) cells in the decidua tissue at the maternal-fetal interface play an important role during the first trimester. The functional subsets and transcriptional regulation mechanisms of decidual NK (dNK) cells remain poorly understood. Here, we identified CD49a+PBX1+ dNK cells as a unique subset of NK cells that promote fetal development in both human and mice. PBX1 drove the transcription of key functional molecules pleiotrophin and osteoglycin that promote fetal development through direct promoter binding. In patients with unexplained recurrent spontaneous abortion (URSA), decreased expression of PBX1 and PBX1(G21S) mutation correlated with fetal growth restriction and pregnancy failure. Inactivation of Pbx1 in mouse NK cells caused impaired fetal development due to a decrease in growth promoting factors. Our observations reveal the molecular regulation mechanism of CD49a+PBX1+ dNK cells promoting fetal development, and indicate that impaired PBX1 in dNK cells may serve as pathogenesis and biomarker of URSA.
Project description:Genetic profiles of mouse placenta were examined especially at the implantation sites of causing spontaneous abortion at day 14.5 of pregnancy. There is a number of the suffered patients from the recurrent spontaneous abortion by unknown causes. It is an important process to understand genetic profiles in the abortion placentas for the investigation of specific causes to induce rejection of normal embryos from the maternal attack. Our study was carried out on the laboratory mice targeted spontaneous abortion to approximate human disease models.
Project description:We profiled the transcriptomes of about 110000 single cells from 16 human first-trimester decidual and villi samples from 5 normal samples and 3 recurrent miscarriage (RM) samples. Each decidual and villi samples was collected from the same patient. The cellular composition revealed five major subsets of immune cells including NK, T cell, macrophage, monocytes and B cell in the maternal fetal interface. We used the marker gene of macrophages to establish the diagnosis and treatment model of unexplained recurrent abortion, in order to explore the relationship between immune cells and unexplained recurrent abortion.
Project description:RNA Sequencing Analysis of villus tissues from unexplained recurrent spontaneous abortion patients and controls with induced abortions
Project description:Recurrent miscarriage (RM) is the occurrence of repeated pregnancies that end in miscarriage of the fetus before 20 weeks of gestation. Recurrent miscarriages affect about 1-2% of couples trying to conceive; however, mechanisms leading to this complication are largely unknown. Our previous studies using comparative proteomics identified 314 differentially expressed proteins (DEPs) in placental villous. In this study, we identified 5479 proteins from a total of 34157 peptides in decidua of patients with early recurrent miscarriage. Further analysis identified 311 DEPs in the decidua tissue; 159 proteins showed the increased expression while 152 proteins showed decreased expression. These 311 proteins were further analyzed using Ingenuity Pathway Analysis (IPA). The results suggested that 50 DEPs could play important roles in the embryonic development. Furthermore, network analysis of the placental villous and decidua embryonic development DEPs was performed in STRING database to find the core gene. This study identifies several proteins that are specifically associated with embryonic development in decidua of patients with early recurrent miscarriage, these results provide new insights into potential biological mechanisms and may ultimately inform recurrent miscarriage.