人胚胎胎儿发育过程中m.8993T→G线粒体DNA突变负荷的稳定性对NARP综合征产前诊断的可行性具有重要意义。
Stability of the m.8993T->G mtDNA mutation load during human embryofetal development has implications for the feasibility of prenatal diagnosis in NARP syndrome.
作者信息
Steffann J, Gigarel N, Corcos J, Bonnière M, Encha-Razavi F, Sinico M, Prevot S, Dumez Y, Yamgnane A, Frydman R, Munnich A, Bonnefont J P
出版信息
J Med Genet. 2007 Oct;44(10):664-9. doi: 10.1136/jmg.2006.048553. Epub 2007 Jun 1.
BACKGROUND
Mitochondrial DNA (mtDNA) mutations cause a wide range of serious genetic diseases with maternal inheritance. Because of the high transmission risk and the absence of therapy in these disorders, at-risk couples often ask for prenatal diagnosis (PND). However, because heteroplasmy load (coexistence of mutant and wild-type mtDNA) may vary among tissues and with time, the possibility that a single fetal sample may not reflect the whole neonate impedes prenatal diagnosis of mtDNA diseases.
METHODS
We performed 13 prenatal diagnoses for the NARP (neurogenic weakness, ataxia, retinitis pigmentosa) m.8993T-->G mtDNA mutation (p.Leu156Arg) in the ATP synthase subunit 6 gene. Analyses were performed on chorionic villous (CVS) and/or amniocyte samples carried out at various stages of pregnancy, using a method enabling quantification of low DNA amounts.
RESULTS
Maternal mutant loads ranged from 0 to 75% in blood and had no predictive value for the fetus status, except for women with no detectable mutant DNA, whose fetuses were consistently mutation-free. In 8/13 PND, mutant load was <30%. These children are healthy at 2-7 years of age. In 5/13 PND, mutant load ranged from 65 to 100%, and parents preferred to terminate the pregnancies (15-22 weeks of gestation). Single-cell analysis of 20 trophoblastic cells and 21 amniocytes isolated from two affected fetuses found an average mutant load close to the overall CVS and amniocyte mutant load, despite striking intercellular variation. The m.8993T-->G mutant loads, assessed in 7, 17, 11, and 5 different tissues from 4 terminations, respectively, were identical in all tissues from a given individual (mean (SD) 78 (1.2)%, 91 (0.7)%, 74 (2)%, and 63 (1.6)% for the 4 fetuses, respectively).
CONCLUSIONS
Our results indicate that the placental/amniotic mutant loads do reflect the NARP mutant mtDNA load in the whole fetus, even when the sample amount is small, and suggest that heteroplasmy level remains stable during pregnancy, at least after 10 weeks of gestation. Although these data establish the feasibility of PND for this mutation, assessing more precisely the correlation between mutant load and disease severity should further help in interpreting PND results.
背景
线粒体DNA(mtDNA)突变会导致多种严重的遗传性疾病,并通过母系遗传。由于这些疾病的高传播风险以及缺乏治疗方法,有风险的夫妇通常会要求进行产前诊断(PND)。然而,由于异质性负荷(突变型和野生型mtDNA共存)可能因组织和时间而异,单个胎儿样本可能无法反映整个新生儿情况的可能性阻碍了mtDNA疾病的产前诊断。
方法
我们对ATP合酶亚基6基因中的NARP(神经源性肌无力、共济失调、色素性视网膜炎)m.8993T→G mtDNA突变(p.Leu156Arg)进行了13次产前诊断。使用一种能够对少量DNA进行定量的方法,对妊娠不同阶段采集的绒毛膜绒毛(CVS)和/或羊水细胞样本进行分析。
结果
母亲血液中的突变负荷范围为0至75%,除了未检测到突变DNA的女性,其胎儿始终无突变外,对胎儿状况没有预测价值。在13次PND中,有8次突变负荷<30%。这些儿童在2至7岁时健康。在13次PND中的5次中,突变负荷范围为65%至100%,父母选择终止妊娠(妊娠15至22周)。对从两个受影响胎儿中分离出的20个滋养层细胞和21个羊水细胞进行单细胞分析发现,尽管细胞间存在显著差异,但平均突变负荷接近总体CVS和羊水细胞突变负荷。分别从4例终止妊娠的胎儿中7个、17个、11个和5个不同组织中评估的m.8993T→G突变负荷,在给定个体的所有组织中是相同的(4例胎儿分别为78(1.2)%、91(0.7)%、74(2)%和63(1.6)%)。
结论
我们的数据表明,胎盘/羊水突变负荷确实反映了整个胎儿中的NARP突变mtDNA负荷,即使样本量很小,并表明异质性水平在妊娠期间保持稳定,至少在妊娠10周后。虽然这些数据确立了针对该突变进行PND的可行性,但更精确地评估突变负荷与疾病严重程度之间的相关性应有助于进一步解释PND结果。
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