线粒体捐赠与线粒体DNA疾病的植入前基因检测
Mitochondrial Donation and Preimplantation Genetic Testing for mtDNA Disease.
作者信息
Hyslop Louise A, Blakely Emma L, Aushev Magomet, Marley Jordan, Takeda Yuko, Pyle Angela, Moody Eilis, Feeney Catherine, Dutton Jan, Shaw Carol, Smith Sarah J, Craig Kate, Alston Charlotte L, Lister Lisa, Endacott Karina, Byerley Samantha, McDermott Helen, Wilson Kathryn, Botham Lynne, Matthew Beth, Prathalingam Nilendran, Prior Matthew, Murdoch Alison, Turnbull Douglass M, Hudson Gavin, Choudhary Meenakshi, Taylor Robert W, Pillai Rekha N, Stewart Jane A, McFarland Robert, Herbert Mary
机构信息
Newcastle Fertility Centre, Newcastle upon Tyne Hospitals NHS Foundation Trust, International Centre for Life, Newcastle upon Tyne, United Kingdom.
NHS Highly Specialised Service for Rare Mitochondrial Disorders, Newcastle upon Tyne Hospitals NHS Foundation Trust, Newcastle upon Tyne, United Kingdom.
出版信息
N Engl J Med. 2025 Jul 31;393(5):438-449. doi: 10.1056/NEJMoa2415539. Epub 2025 Jul 16.
BACKGROUND
Children born to women who carry pathogenic variants in mitochondrial DNA (mtDNA) are at risk for a range of clinical syndromes collectively known as mtDNA disease. Mitochondrial donation by pronuclear transfer involves transplantation of nuclear genome from a fertilized egg from the affected woman to an enucleated fertilized egg donated by an unaffected woman. Thus, pronuclear transfer offers affected women the potential to have a genetically related child with a reduced risk of mtDNA disease.
METHODS
We offered mitochondrial donation (by pronuclear transfer) or preimplantation genetic testing (PGT) to a series of women with pathogenic mtDNA variants who sought to reduce the transmission of these variants to their children. Patients with heteroplasmy (variants present in a proportion of copies of mtDNA) were offered PGT, and patients with homoplasmy (variants present in all copies of mtDNA) or elevated heteroplasmy were offered pronuclear transfer.
RESULTS
Clinical pregnancies were confirmed in 8 of 22 patients (36%) and 16 of 39 patients (41%) who underwent an intracytoplasmic sperm injection procedure for pronuclear transfer or for PGT, respectively. Pronuclear transfer resulted in 8 live births and 1 ongoing pregnancy. PGT resulted in 18 live births. Heteroplasmy levels in the blood of the 8 infants whose mothers underwent pronuclear transfer ranged from undetectable to 16%. Levels of the maternal pathogenic mtDNA variant were 95 to 100% lower in 6 newborns and 77 to 88% lower in 2 newborns than in the corresponding enucleated zygotes. Heteroplasmy levels were known for 10 of the 18 infants whose mothers underwent PGT and ranged from undetectable to 7%.
CONCLUSIONS
We found that mitochondrial donation through pronuclear transfer was compatible with human embryo viability. An integrated program involving pronuclear transfer and PGT was effective in reducing the transmission of homoplasmic and heteroplasmic pathogenic mtDNA variants. (Funded by NHS England and others.).
背景
线粒体DNA(mtDNA)携带致病变异的女性所生育的孩子有患一系列临床综合征的风险,这些综合征统称为mtDNA疾病。原核移植的线粒体捐赠涉及将受影响女性受精卵中的核基因组移植到未受影响女性捐赠的去核受精卵中。因此,原核移植为受影响的女性提供了生育与自己有遗传关系且患mtDNA疾病风险降低的孩子的可能性。
方法
我们为一系列携带致病性mtDNA变异且希望减少这些变异向其子女传递的女性提供线粒体捐赠(通过原核移植)或植入前基因检测(PGT)。对存在异质性(mtDNA部分拷贝中存在变异)的患者提供PGT,对存在同质性(mtDNA所有拷贝中均存在变异)或异质性升高的患者提供原核移植。
结果
分别接受原核移植或PGT的胞浆内单精子注射程序的22例患者中有8例(36%)和39例患者中有16例(41%)确认临床妊娠。原核移植导致8例活产和1例持续妊娠。PGT导致18例活产。其母亲接受原核移植的8名婴儿血液中的异质性水平从检测不到到16%不等。6名新生儿中母亲致病性mtDNA变异水平比相应的去核受精卵低95%至100%,2名新生儿中低77%至88%。其母亲接受PGT的18名婴儿中有10名的异质性水平已知,范围从检测不到到7%。
结论
我们发现通过原核移植进行线粒体捐赠与人类胚胎存活能力相容。一个涉及原核移植和PGT的综合方案在减少同质性和异质性致病性mtDNA变异的传递方面是有效的。(由英国国家医疗服务体系等资助。)
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