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Differential gene expression profile in monocytic myeloid-derived suppressor cells at maternal-fetal interface in a mouse model of spontaneous abortion 期刊论文

编号：

6af2fa11-94ca-478f-a79d-3af229a8a7c4
作者：

Ren, Jiabin#^[1,2]Zeng, Weihong^[3];Tian, Fuju^[3];Wu, Fan^[3];Zhang, Siming^[4]Liu, Xiaorui^[3];Lin, Yi*^[3]
语种：

英文
期刊：

JOURNAL OF CELLULAR PHYSIOLOGY ISSN：0021-9541 2019 年 234 卷 7 期 (10789 - 10799) ; JUL
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关键词：

gene chip GO enrichment analysis KEGG enrichment analysis myeloid-derived suppressor cells pregnancy loss
摘要：

BackgroundMonocytic myeloid-derived suppressor cells (MO-MDSCs) play an important role in maintaining normal pregnancy. However, it is still not clear what kind of changes in MO-MDSCs may lead to miscarriage, and which gene expression changes take place when MO-MDSCs migrate to the uterus as bone marrow-derived cells.
MethodsWe used flow sorting technology to obtain MO-MDSCs from the maternal-fetal interface and bone marrow, respectively. Affymetrix 3IVT expression profiling chip technology was used to detect the differential gene expression profiles in MO-MDSCs at the maternal-fetal interface in a mouse model of spontaneous abortion compared with the normal fertility control mice. We also compared the differential gene expression of MO-MDSCs at the maternal-fetal interface compared with bone marrow in the normal fertility control mice.
ResultsWe found that 3,409 genes in MO-MDSCs were upregulated and 1,539 genes were downregulated at the maternal-fetal interface in the spontaneous abortion mice compared with the normal fertility mice. These genes are enriched in cellular components, biological processes, molecular functions, and protein binding, tumor signaling pathway, the PI3K-Akt signaling pathway, intratumoral proteoglycans, and extracellular matrix receptor interactions. Furthermore, we found that 270 genes in MO-MDSCs were upregulated and 383 genes were downregulated at the maternal-fetal interface in the normal fertility mice compared with those in the bone marrow. These genes are enriched in cellular components, biological processes, molecular functions, cell cycle, tumor transcriptional disorder, and cell adhesion molecules.
ConclusionDifferential gene expression in MO-MDSCs likely contributes to a successful pregnancy in fetal-maternal immunotolerance.
推荐引用方式
GB/T 7714：

Ren Jiabin,Zeng Weihong,Tian Fuju, et al. Differential gene expression profile in monocytic myeloid-derived suppressor cells at maternal-fetal interface in a mouse model of spontaneous abortion [J].JOURNAL OF CELLULAR PHYSIOLOGY,2019,234(7):10789-10799.
APA：

Ren Jiabin,Zeng Weihong,Tian Fuju,Wu Fan,&Lin Yi.(2019).Differential gene expression profile in monocytic myeloid-derived suppressor cells at maternal-fetal interface in a mouse model of spontaneous abortion .JOURNAL OF CELLULAR PHYSIOLOGY,234(7):10789-10799.
MLA：

Ren Jiabin, et al. "Differential gene expression profile in monocytic myeloid-derived suppressor cells at maternal-fetal interface in a mouse model of spontaneous abortion" .JOURNAL OF CELLULAR PHYSIOLOGY 234,7(2019):10789-10799.
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