Mother Infant Research Institute and Department of Pediatrics, Floating Hospital for Children at Tufts Medical Center, Boston, MA, USA,
Hum Genet. 2014 Sep;133(9):1075-82. doi: 10.1007/s00439-014-1448-y. Epub 2014 May 22.
Turner syndrome is a sex chromosome aneuploidy with characteristic malformations. Amniotic fluid, a complex biological material, could contribute to the understanding of Turner syndrome pathogenesis. In this pilot study, global gene expression analysis of cell-free RNA in amniotic fluid supernatant was utilized to identify specific genes/organ systems that may play a role in Turner syndrome pathophysiology. Cell-free RNA from amniotic fluid of five mid-trimester Turner syndrome fetuses and five euploid female fetuses matched for gestational age was extracted, amplified, and hybridized onto Affymetrix(®) U133 Plus 2.0 arrays. Significantly differentially regulated genes were identified using paired t tests. Biological interpretation was performed using Ingenuity Pathway Analysis and BioGPS gene expression atlas. There were 470 statistically significantly differentially expressed genes identified. They were widely distributed across the genome. XIST was significantly down-regulated (p < 0.0001); SHOX was not differentially expressed. One of the most highly represented organ systems was the hematologic/immune system, distinguishing the Turner syndrome transcriptome from other aneuploidies we previously studied. Manual curation of the differentially expressed gene list identified genes of possible pathologic significance, including NFATC3, IGFBP5, and LDLR. Transcriptomic differences in the amniotic fluid of Turner syndrome fetuses are due to genome-wide dysregulation. The hematologic/immune system differences may play a role in early-onset autoimmune dysfunction. Other genes identified with possible pathologic significance are associated with cardiac and skeletal systems, which are known to be affected in females with Turner syndrome. The discovery-driven approach described here may be useful in elucidating novel mechanisms of disease in Turner syndrome.
特纳综合征是一种性染色体非整倍体,具有特征性的畸形。羊水是一种复杂的生物材料,可能有助于了解特纳综合征的发病机制。在这项初步研究中,我们利用羊水细胞外 RNA 的全基因表达分析来鉴定可能在特纳综合征病理生理学中起作用的特定基因/器官系统。从 5 例中期特纳综合征胎儿和 5 例年龄匹配的正常胎儿的羊水上清液中提取、扩增并杂交到 Affymetrix(®) U133 Plus 2.0 阵列上。使用配对 t 检验鉴定差异表达基因。使用 Ingenuity Pathway Analysis 和 BioGPS 基因表达图谱进行生物学解释。鉴定出 470 个差异表达基因。它们广泛分布于整个基因组。XIST 显著下调(p<0.0001); SHOX 无差异表达。表现最突出的器官系统之一是血液/免疫系统,这将特纳综合征的转录组与我们之前研究的其他非整倍体区分开来。差异表达基因列表的手动注释鉴定出了具有潜在病理意义的基因,包括 NFATC3、IGFBP5 和 LDLR。特纳综合征胎儿羊水的转录组差异是由于全基因组失调所致。血液/免疫系统的差异可能在早期自身免疫功能障碍中起作用。其他具有潜在病理意义的基因与心脏和骨骼系统有关,已知特纳综合征女性会受到这些系统的影响。这里描述的发现驱动方法可能有助于阐明特纳综合征的疾病新机制。