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本文引用的文献

1
Maternal plasma concentrations of sST2 and angiogenic/anti-angiogenic factors in preeclampsia.子痫前期患者母体血浆中可溶性ST2及血管生成/抗血管生成因子的浓度
J Matern Fetal Neonatal Med. 2013 Sep;26(14):1359-70. doi: 10.3109/14767058.2013.784256. Epub 2013 May 20.
2
Maternal plasma concentrations of angiogenic/antiangiogenic factors in the third trimester of pregnancy to identify the patient at risk for stillbirth at or near term and severe late preeclampsia.妊娠晚期母体血浆血管生成/抗血管生成因子水平识别接近足月或足月发生死胎及重度晚期子痫前期的高危患者。
Am J Obstet Gynecol. 2013 Apr;208(4):287.e1-287.e15. doi: 10.1016/j.ajog.2013.01.016. Epub 2013 Jan 17.
3
First-trimester metabolomic detection of late-onset preeclampsia.早孕期代谢组学检测晚发型子痫前期。
Am J Obstet Gynecol. 2013 Jan;208(1):58.e1-7. doi: 10.1016/j.ajog.2012.11.003. Epub 2012 Nov 13.
4
Mid-gestational gene expression profile in placenta and link to pregnancy complications.中期妊娠胎盘基因表达谱与妊娠并发症的关联。
PLoS One. 2012;7(11):e49248. doi: 10.1371/journal.pone.0049248. Epub 2012 Nov 7.
5
Systemic inflammatory stimulation by microparticles derived from hypoxic trophoblast as a model for inflammatory response in preeclampsia.缺氧滋养层来源的微粒体作为子痫前期炎症反应模型的全身炎症刺激。
Am J Obstet Gynecol. 2012 Oct;207(4):337.e1-8. doi: 10.1016/j.ajog.2012.06.047. Epub 2012 Jun 29.
6
The maternal HLA-G 1597ΔC null mutation is associated with increased risk of pre-eclampsia and reduced HLA-G expression during pregnancy in African-American women.母系 HLA-G 1597ΔC 无突变与非裔美国女性子痫前期风险增加和妊娠期间 HLA-G 表达减少相关。
Mol Hum Reprod. 2013 Mar;19(3):144-52. doi: 10.1093/molehr/gas041. Epub 2012 Sep 21.
7
Increased protein-coding mutations in the mitochondrial genome of African American women with preeclampsia.非裔美国子痫前期妇女线粒体基因组中蛋白质编码突变的增加。
Reprod Sci. 2012 Dec;19(12):1343-51. doi: 10.1177/1933719112450337. Epub 2012 Aug 17.
8
Preeclampsia is associated with alterations in DNA methylation of genes involved in collagen metabolism.子痫前期与涉及胶原代谢的基因的 DNA 甲基化改变有关。
Am J Pathol. 2012 Oct;181(4):1455-63. doi: 10.1016/j.ajpath.2012.06.019. Epub 2012 Aug 3.
9
Endothelial microparticles and the antiangiogenic state in preeclampsia and the postpartum period.子痫前期和产后期间的内皮微粒体和抗血管生成状态。
Am J Obstet Gynecol. 2012 Aug;207(2):140.e20-6. doi: 10.1016/j.ajog.2012.06.011. Epub 2012 Jun 11.
10
The imprinted H19 gene regulates human placental trophoblast cell proliferation via encoding miR-675 that targets Nodal Modulator 1 (NOMO1).印迹基因 H19 通过编码靶向 Nodal 调节剂 1(NOMO1)的 miR-675 调控人胎盘滋养层细胞增殖。
RNA Biol. 2012 Jul;9(7):1002-10. doi: 10.4161/rna.20807. Epub 2012 Jul 1.

早发型和晚发型子痫前期患者外周全血转录谱的差异和相似性:对子痫前期表型分子基础的深入了解。

Differences and similarities in the transcriptional profile of peripheral whole blood in early and late-onset preeclampsia: insights into the molecular basis of the phenotype of preeclampsiaa.

机构信息

Wayne State University/Hutzel Women’s Hospital, MI 48201, USA.

出版信息

J Perinat Med. 2013 Sep 1;41(5):485-504. doi: 10.1515/jpm-2013-0082.

DOI:10.1515/jpm-2013-0082
PMID:23793063
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4164302/
Abstract

OBJECTIVE

Preeclampsia (PE) can be sub-divided into early- and late-onset phenotypes. The pathogenesis of these two phenotypes has not been elucidated. To gain insight into the mechanisms of disease, the transcriptional profiles of whole blood from women with early- and late-onset PE were examined.

METHODS

A cross-sectional study was conducted to include women with: i) early-onset PE (diagnosed prior to 34 weeks, n=25); ii) late-onset PE (after 34 weeks, n=47); and iii) uncomplicated pregnancy (n=61). Microarray analysis of mRNA expression in peripheral whole blood was undertaken using Affymetrix microarrays. Differential gene expression was evaluated using a moderated t-test (false discovery rate <0.1 and fold change >1.5), adjusting for maternal white blood cell count and gestational age. Validation by real-time qRT-PCR was performed in a larger sample size [early PE (n=31), late PE (n=72) and controls (n=99)] in all differentially expressed genes. Gene ontology analysis and pathway analysis were performed.

RESULTS

i) 43 and 28 genes were differentially expressed in early- and late-onset PE compared to the control group, respectively; ii) qRT-PCR confirmed the microarray results for early and late-onset PE in 77% (33/43) and 71% (20/28) of genes, respectively; iii) 20 genes that are involved in coagulation (SERPINI2), immune regulation (VSIG4, CD24), developmental process (H19) and inflammation (S100A10) were differentially expressed in early-onset PE alone. In contrast, only seven genes that encoded proteins involved in innate immunity (LTF, ELANE) and cell-to-cell recognition in the nervous system (CNTNAP3) were differentially expressed in late-onset PE alone. Thirteen genes that encode proteins involved in host defense (DEFA4, BPI, CTSG, LCN2), tight junctions in blood-brain barrier (EMP1) and liver regeneration (ECT2) were differentially expressed in both early- and late-onset PE.

CONCLUSION

Early- and late-onset PE are characterized by a common signature in the transcriptional profile of whole blood. A small set of genes were differentially regulated in early- and late-onset PE. Future studies of the biological function, expression timetable and protein expression of these genes may provide insight into the pathophysiology of PE.

摘要

目的

子痫前期(PE)可分为早发型和晚发型表型。这两种表型的发病机制尚未阐明。为了深入了解疾病的机制,我们检查了早发型和晚发型 PE 患者全血的转录谱。

方法

进行了一项横断面研究,纳入了以下女性:i)早发型 PE(诊断于 34 周前,n=25);ii)晚发型 PE(34 周后,n=47);和 iii)无并发症妊娠(n=61)。使用 Affymetrix 微阵列对外周血全血的 mRNA 表达进行了微阵列分析。通过调节后的 t 检验(假发现率 <0.1 和倍数变化 >1.5)评估差异基因表达,同时调整了母体白细胞计数和胎龄。在更大的样本量(早发性 PE(n=31)、晚发性 PE(n=72)和对照组(n=99))中通过实时 qRT-PCR 对所有差异表达基因进行验证。进行了基因本体论分析和途径分析。

结果

i)与对照组相比,早发型和晚发型 PE 分别有 43 和 28 个基因差异表达;ii)qRT-PCR 分别在 77%(33/43)和 71%(20/28)的基因中证实了早发性和晚发性 PE 的微阵列结果;iii)在早发型 PE 中,有 20 个基因参与凝血(SERPINI2)、免疫调节(VSIG4、CD24)、发育过程(H19)和炎症(S100A10),而在晚发型 PE 中,仅有 7 个基因编码与先天免疫有关的蛋白(LTF、ELANE)和神经系统中的细胞间识别(CNTNAP3)。13 个编码与宿主防御(DEFA4、BPI、CTSG、LCN2)、血脑屏障紧密连接(EMP1)和肝脏再生(ECT2)有关的蛋白的基因在早发型和晚发型 PE 中差异表达。

结论

早发型和晚发型 PE 的全血转录谱具有共同特征。一小部分基因在早发型和晚发型 PE 中差异调节。这些基因的生物学功能、表达时间表和蛋白质表达的进一步研究可能有助于深入了解 PE 的病理生理学。