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Non-invasive detection of fetal trisomy 21 using fetal epigenetic biomarkers with a high CpG density

2013; De Gruyter; Volume: 52; Issue: 5 Linguagem: Inglês

10.1515/cclm-2013-0802

1437-4331

Ji Hyae Lim, Da Eun Lee, Kyeong Sun Kim, Hyun Jin Kim, Bom Yi Lee, So Yeon Park, Hyun Kyong Ahn, Si Won Lee, Moon Young Kim, Hyun Mee Ryu,

Epigenetics and DNA Methylation

Non-invasive prenatal test of trisomy 21 (T21) is being researched using fetal specific epigenetic biomarkers present in maternal plasma. We applied a methyl-CpG binding domain-based protein (MBD) method based on epigenetic characteristics of fetal specific-methylated regions with a high CpG density in HLCS on chromosome 21 and RASSF1A on chromosome 3 for the non-invasive detection of fetal T21 and estimated the diagnostic accuracy of the method.A nested case-control study was conducted with maternal plasma collected from 50 pregnant women carrying 40 normal and 10 T21 fetuses. A MBD method was used for enrichment of methylated DNA regions in maternal plasma. The levels of methylated HLCS (M-HLCS) and methylated RASSF1A (M-RASSF1A) were simultaneously measured by multiplex qPCR.Levels of M-HLCS and M-RASSF1A were obtained in all cases. Levels were not different according to fetal gender (p>0.05 in both). The level of M-HLCS was significantly increased in women with a T21 fetus compared with controls (p 0.05). In non-invasive fetal T21 detection, the specificity of M-HLCS level and the epigenetic-epigenetic ratio (EER) using M-HLCS and M-RASSF1A levels were 82.5% and 92.5%, respectively, at 90.0% sensitivity.Our findings suggest that the EER may be useful as a potential biomarker for the non-invasive detection of fetal T21, regardless of fetal gender. The MBD method can be used as an effective tool in the detection of methylated fetal specific markers with a high CpG density in maternal plasma.