Chinese Medical E-ournals Database
Adv Search
中华妇幼临床医学杂志(电子版)

Chinese Journal of Obstetrics & Gynecology and Pediatrics(Electronic Edition) ›› 2017, Vol. 13 ›› Issue (02): 135 -138. doi: 10.3877/cma.j.issn.1673-5250.2017.02.003

Special Issue:

Editorial

Research of CXCL12/CXCR4/CXCR7 signal pathway, pregnancy and preeclampsia pathogenesis

Tingting Wang1, Jin Yan1, Ying Zheng1, Xiang Kong1,()   

  1. 1. Department of Obstetrics and Gynecology, Medical School of Yangzhou University (Subei Hospital), Yangzhou 225001, Jiangsu Province, China
  • Received:2016-10-30 Revised:2017-02-13 Published:2017-04-01
  • Corresponding author: Xiang Kong
  • About author:
    Corresponding author: Kong Xiang, Email:
HTML ( ) PDF ( )

Preeclampsia (PE) is a pregnancy-specific diseases, pregnant women in the second and third trimesters will appear hypertension and proteinuria and other symptoms, even leading to them perinatal maternal and fetal death. Currently pathogenesis of PE remains unclear, the relationship between PE and inflammation, immunization become a hot clinical research topic, especially about chemokine. Chemokine ligand (CXCL)12 and chemokine receptors (CXCR)4, and CXCR7 is one of the hot topics of PE research. This article talks about how CXCL12/CXCR4/CXCR7 signal pathway regulates trophoblastic cell and placenta formation, in order to explore the pathogenesis of PE.

Key words: CXCL12/CXCR4/CXCR7 signal pathway, Trophoblastic cell, Placental angiogenesis, Preeclampsia
[1]
Giannubilo SR, Landi B, Ciavattini A. Preeclampsia: what could happen in a subsequent pregnancy[J]. Obstet Gynecol Surv, 2014, 69(12): 747-762.
[2]
Wang L, Li X, Zhao Y, et al. Insights into the mechanism of CXCL12-mediated signaling in trophoblast functions and placental angiogenesis[J]. Acta Biochim Biophys Sin (Shanghai), 2015, 47(9): 663-672.
[3]
Zhao HB, Tang CL, Hou YL, et al. CXCL12/CXCR4 axis triggers the activation of EGF receptor and ERK signaling pathway in CsA-induced proliferation of human trophoblast cells[J]. PLoS One, 2012, 7(7): e38375.
[4]
牛坤汀, 莫碧文, 王志霞, 等. CXCL12-CXCR4/CXCR7信号轴相关疾病研究进展[J]. 山东医药, 2015, 55(17): 89-91.
[5]
Chen G, Wang W, Meng S, et al. CXC chemokine CXCL12 and its receptor CXCR4 in tree shrews (tupaia belangeri): structure, expression and function[J]. PLoS One, 2014, 9(5): e98231.
[6]
Tripathi V, Kumar R, Dinda AK, et al. CXCL12-CXCR7 signaling activates ERK and Akt pathways in human choriocarcinoma cells[J]. Cell Commun Adhes, 2014, 21(4): 221-228.
[7]
Yao C, Li P, Song H, et al. CXCL12/CXCR4 axis upregulates twist to induce EMT in human glioblastoma[J]. Mol Neurobiol, 2016, 53(6): 3948-3953.
[8]
Lyall F, Robson SC, Bulmer JN. Spiral artery remodeling and trophoblast invasion in preeclampsia and fetal growth restriction: relationship to clinical outcome[J]. Hypertension, 2013, 62(6): 1046-1054.
[9]
Knöfler M, Pollheimer J. IFPA award in placentology lecture: molecular regulation of human trophoblast invasion[J]. Placenta, 2012, 33(Suppl): S55-S62.
[10]
孙颖, 李智泉, 周紫琼. 缺氧诱导因子-1α与子痫前期病理特点相关性分析[J]. 中国实用医刊, 2015, 42(12): 96-98.
[11]
Lu J, Zhou WH, Ren L, et al. CXCR4, CXCR7, and CXCL12 are associated with trophoblastic cells apoptosis and linked to pathophysiology of severe preeclampsia[J]. Exp Mol Pathol, 2016, 100(1): 184-191.
[12]
Warner JA, Zwezdaryk KJ, Day B, et al. Human cytomegalovirus infection inhibits CXCL12- mediated migration and invasion of human extravillous cytotrophoblasts[J]. Virol J, 2012, 9: 255.
[13]
Piao HL, Tao Y, Zhu R, et al. The CXCL12/CXCR4 axis is involved in the maintenance of Th2 bias at the maternal/fetal interface in early human pregnancy[J]. Cell Mol Immunol, 2012, 9(5): 423-430.
[14]
Mirandola L, Apicella L, Colombo M, et al. Anti-Notch treatment prevents multiple myeloma cells localization to the bone marrow via the chemokine system CXCR4/SDF-1[J]. Leukemia, 2013, 27(7): 1558-1566.
[15]
Fang Y, Yu S, Ma Y, et al. Association of Dll4/notch and HIF-1a -VEGF signaling in the angiogenesis of missed abortion[J]. PLoS One, 2013, 8(8): e70667.
[16]
Hamed S, Egozi D, Dawood H, et al. The chemokine stromal cell-derived factor-1α promotes endothelial progenitor cell-mediated neovascularization of human transplanted fat tissue in diabetic immunocompromised mice[J]. Plast Reconstr Surg, 2013, 132(2): 239e-250e.
[17]
Quinn KE, Ashley AK, Reynolds LP, et al. Activation of the CXCL12/CXCR4 signaling axis may drive vascularization of the ovine placenta[J]. Domest Anim Endocrinol, 2014, 47: 11-21.
[18]
Zhou Y, Yuge A, Rajah AM, et al. LIMK1 regulates human trophoblast invasion/differentiation and is down-regulated in preeclampsia[J]. Am J Pathol, 2014, 184(12): 3321-3331.
[19]
Iriyama T, Wang W, Parchim NF, et al. Hypoxia-independent upregulation of placental hypoxia inducible factor-1α gene expression contributes to the pathogenesis of preeclampsia[J]. Hypertension, 2015, 65(6): 1307-1315.
[20]
Ren L, Liu YQ, Zhou WH, et al. Trophoblast-derived chemokine CXCL12 promotes CXCR4 expression and invasion of human first-trimester decidual stromal cells[J]. Hum Reprod, 2012, 27(2): 366-374.
[21]
Soares MJ, Chakraborty D, Renaud SJ, et al. Regulatory pathways controlling the endovascular invasive trophoblast cell lineage[J]. J Reprod Dev, 2012, 58(3): 283-287.
[22]
Barrientos G, Tirado-González I, Freitag N, et al. CXCR4 dendritic cells promote angiogenesis during embryo implantation in mice[J]. Angiogenesis, 2013, 16(2): 417-427.
[23]
Kim SC, Moon SH, Lee DH, et al. Differential expressions of stromal cell-derived factor-1α and vascular endothelial growth factor in the placental bed of pregnancies complicated by preeclampsia[J]. Hypertens Pregnancy, 2014, 33(1): 31-40.
[1] Jian Zhuang, Changjie Pan, Xiaoqin Li, Mengxia Yu, Chao Zhang, Weiwen Zhu. Clinical value of shear wave elastography in evaluating placental elasticity in patients with preeclampsia[J]. Chinese Journal of Medical Ultrasound (Electronic Edition), 2022, 19(07): 660-666.
[2] Xianmei Wei, Yu Han, Yingcai Jiang. Knockdown of circSERPINE2 inhibits trophoblast cell proliferation, migration and invasion by targeting miR-34a-5p expression[J]. Chinese Journal of Cell and Stem Cell(Electronic Edition), 2023, 13(04): 193-201.
[3] Doudou He, Xiaotong Sun, Tao Qu, Zhongyuan Li, Xueping Yang. Research progress on the effects of mesenchymal stem cell-derived exosomes on the biological behaviour of preeclamptic trophoblast cells[J]. Chinese Journal of Cell and Stem Cell(Electronic Edition), 2022, 12(05): 309-313.
[4] Shasha Liu, Guoqiang Sun, Lirong Wu. The effects of luteolin on apoptosis of trophoblast cells in preeclampsia rats and the mechanisms[J]. Chinese Journal of Cell and Stem Cell(Electronic Edition), 2022, 12(03): 138-144.
[5] Haihong Song, Ping Li, Xianxia Chen. Relationship of uterine arterial pulsatility index, peripheral blood fetal hemoglobin, and placental growth factor level with outcome of early-onset preeclampsia re-pregnancy[J]. Chinese Journal of Clinicians(Electronic Edition), 2022, 16(11): 1109-1114.
[6] Ling Xie, Chunxia Huo, Aiping Zhang. Diagnostic and predictive value of sFlt-1 and PLGF for preeclampsia in pregnant women[J]. Chinese Journal of Clinicians(Electronic Edition), 2022, 16(09): 902-907.
[7] Xiaofang Zheng, Songquan Wei, Zhenxuan Huang, Wenshi Wu, Guimin Li, Hongxia Zhang, Qingping Jiang, Dunjin Chen, Lin Yu. Pregnancy outcome and pathological changes of the placenta in preeclampsia with fetal growth restriction[J]. Chinese Journal of Obstetric Emergency(Electronic Edition), 2023, 12(02): 85-92.
[8] Fang He. Thrombophilia and preeclampsia[J]. Chinese Journal of Obstetric Emergency(Electronic Edition), 2023, 12(01): 6-11.
[9] Yanmei Zhou, Wen Sun, Lin Lin, Juanjuan Chen, Peili Du, Huili Zhang, Jingsi Chen, Lili Du, Dunjin Chen. Diagnosis, treatment and evaluation of preeclampsia complicated with heart failure[J]. Chinese Journal of Obstetric Emergency(Electronic Edition), 2022, 11(04): 228-233.
[10] Xinxin Wang, Shangrong Fan. Diagnosis and management of acute left heart failure in patients with Preeclampsia[J]. Chinese Journal of Obstetric Emergency(Electronic Edition), 2022, 11(02): 77-80.
[11] Peili Du, Wen Sun, Chunhong Su, Chunfang Zhang, Lin Yu, Fang He, Lili Du, Jingsi Chen, Dunjin Chen. Analysis of maternal and fetal outcomes in different subtype of preeclampsia[J]. Chinese Journal of Obstetric Emergency(Electronic Edition), 2022, 11(01): 33-37.
[12] Xin Dong, Xuelan Li. Problem and confusion in the treatment of preeclampsia with magnesium sulfate[J]. Chinese Journal of Obstetric Emergency(Electronic Edition), 2021, 10(04): 206-210.
[13] Qianqian Chu, Yu Zhang. The prediction of preeclampsia[J]. Chinese Journal of Obstetric Emergency(Electronic Edition), 2021, 10(04): 201-205.
[14] Hongyan Wang, Guiqin Bai. The classification of preeclampsia[J]. Chinese Journal of Obstetric Emergency(Electronic Edition), 2021, 10(04): 197-200.
[15] Huili Zhang, Dunjin Chen. Preeclampsia: what is the clinical controversy[J]. Chinese Journal of Obstetric Emergency(Electronic Edition), 2021, 10(04): 193-196.
Viewed
Full text


Abstract

Copyright © Chinese Medical Association, Chinese Medical Multimedia Press  京ICP备14006079号-1  网络出版服务许可证:(署)网出证(京)字第075号