Thomas Christie P, Andrews Janet I, Raikwar Nandita S, Kelley Elizabeth A, Herse Florian, Dechend Ralf, Golos Thaddeus G, Liu Kang Z
Department of Internal Medicine, of Iowa College of Medicine, Iowa City, Iowa 52242, USA.
J Clin Endocrinol Metab. 2009 Jul;94(7):2524-30. doi: 10.1210/jc.2009-0017. Epub 2009 Mar 31.
Recent published studies indicate a possible role for sFlt1 in the development of preeclampsia.
The objective of the study was to investigate the expression and regulation of sFlt1-e15a, a recently described novel C-terminal variant isoform of sFlt1.
The studies included a computational comparative analysis of the genomic locus of sFlt1 across vertebrate species; an assessment of sFlt1 variants in human and rhesus cells and tissues; an analysis of sFlt1 variants transiently expressed in HeLa and COS-7 cells; an evaluation of the effect of hypoxia on sFlt1 expression in trophoblasts; and a comparison of placental sFlt1 expression between pregnancies complicated by preeclampsia and control pregnancies.
sFlt1-e15a emerged as an alternate transcript of Flt1 late in evolution with the insertion of an AluSq sequence into the primate genome after the emergence of the simian infraorder about 40 million years ago. sFlt1-e15a is particularly abundant in human placenta and trophoblasts and is also highly expressed in nonhuman primate placenta. The expressed protein has a C-terminal polyserine tail and, like reference sequence sFlt1 (sFlt1-i13), is glycosylated and secreted. Consistent with a role in placental pathophysiology, hypoxia stimulates sFlt1-e15a expression in isolated cytotrophoblasts and a trophoblast cell line, and differentiation into syncytiotrophoblasts further enhances the effect of hypoxia. Placental levels of sFlt1-e15a and sFlt1-i13 transcripts are significantly elevated in patients with preeclampsia compared with normal pregnancies. We speculate that sFlt1-e15a may contribute to the pathophysiology of preeclampsia.
最近发表的研究表明,可溶性血管内皮生长因子受体1(sFlt1)在子痫前期的发生发展中可能起作用。
本研究的目的是调查sFlt1-e15a的表达和调控,sFlt1-e15a是最近描述的sFlt1的一种新型C末端变异体同工型。
这些研究包括对脊椎动物物种中sFlt1基因座的计算比较分析;对人和恒河猴细胞及组织中sFlt1变异体的评估;对在HeLa和COS-7细胞中瞬时表达的sFlt1变异体的分析;对缺氧对滋养层细胞中sFlt1表达影响的评估;以及子痫前期妊娠与对照妊娠之间胎盘sFlt1表达的比较。
sFlt1-e15a是在进化后期作为Flt1的一种替代转录本出现的,大约在4000万年前猿猴下目出现后,一个AluSq序列插入到灵长类基因组中。sFlt1-e15a在人胎盘和滋养层细胞中特别丰富,在非人类灵长类胎盘也高度表达。表达的蛋白质有一个C末端多聚丝氨酸尾巴,并且与参考序列sFlt1(sFlt1-i13)一样,被糖基化并分泌。与在胎盘病理生理学中的作用一致,缺氧刺激分离的细胞滋养层细胞和一种滋养层细胞系中sFlt1-e15a的表达,而分化为合体滋养层细胞进一步增强缺氧的作用。与正常妊娠相比,子痫前期患者胎盘sFlt1-e15a和sFlt1-i13转录本水平显著升高。我们推测sFlt1-e15a可能参与子痫前期的病理生理过程。