Jones Takako I, Yan Chi, Sapp Peter C, McKenna-Yasek Diane, Kang Peter B, Quinn Colin, Salameh Johnny S, King Oliver D, Jones Peter L
The Wellstone Program & The Department of Cell and Developmental Biology, University of Massachusetts Medical School, 55 Lake Avenue North, Worcester, MA 01655 USA.
The Wellstone Program & The Department of Cell and Developmental Biology, University of Massachusetts Medical School, 55 Lake Avenue North, Worcester, MA 01655 USA ; Key Lab of Swine Genetics and Breeding, Ministry of Agriculture, College of Animal Science and Technology, Huazhong Agricultural University, Wuhan, 430070 P.R. China.
Clin Epigenetics. 2014 Oct 29;6(1):23. doi: 10.1186/1868-7083-6-23. eCollection 2014.
Facioscapulohumeral muscular dystrophy (FSHD) is linked to chromatin relaxation due to epigenetic changes at the 4q35 D4Z4 macrosatellite array. Molecular diagnostic criteria for FSHD are complex and involve analysis of high molecular weight (HMW) genomic DNA isolated from lymphocytes, followed by multiple restriction digestions, pulse-field gel electrophoresis (PFGE), and Southern blotting. A subject is genetically diagnosed as FSHD1 if one of the 4q alleles shows a contraction in the D4Z4 array to below 11 repeats, while maintaining at least 1 repeat, and the contraction is in cis with a disease-permissive A-type subtelomere. FSHD2 is contraction-independent and cannot be diagnosed or excluded by this common genetic diagnostic procedure. However, FSHD1 and FSHD2 are linked by epigenetic deregulation, assayed as DNA hypomethylation, of the D4Z4 array on FSHD-permissive alleles. We have developed a PCR-based assay that identifies the epigenetic signature for both types of FSHD, distinguishing FSHD1 from FSHD2, and can be performed on genomic DNA isolated from blood, saliva, or cultured cells.
Samples were obtained from healthy controls or patients clinically diagnosed with FSHD, and include both FSHD1 and FSHD2. The genomic DNAs were subjected to bisulfite sequencing analysis for the distal 4q D4Z4 repeat with an A-type subtelomere and the DUX4 5' promoter region. We compared genomic DNA isolated from saliva and blood from the same individuals and found similar epigenetic signatures. DNA hypomethylation was restricted to the contracted 4qA chromosome in FSHD1 patients while healthy control subjects were hypermethylated. Candidates for FSHD2 showed extreme DNA hypomethylation on the 4qA DUX4 gene body as well as all analyzed DUX4 5' sequences. Importantly, our assay does not amplify the D4Z4 arrays with non-permissive B-type subtelomeres and accurately excludes the arrays with non-permissive A-type subtelomeres.
We have developed an assay to identify changes in DNA methylation on the pathogenic distal 4q D4Z4 repeat. We show that the DNA methylation profile of saliva reflects FSHD status. This assay can distinguish FSHD from healthy controls, differentiate FSHD1 from FSHD2, does not require HMW genomic DNA or PFGE, and can be performed on either cultured cells, tissue, blood, or saliva samples.
面肩肱型肌营养不良症(FSHD)与4q35 D4Z4大卫星阵列的表观遗传变化导致的染色质松弛有关。FSHD的分子诊断标准复杂,包括分析从淋巴细胞中分离的高分子量(HMW)基因组DNA,随后进行多次限制性消化、脉冲场凝胶电泳(PFGE)和Southern印迹分析。如果4q等位基因之一在D4Z4阵列中显示收缩至低于11个重复序列,同时至少保留1个重复序列,且该收缩与疾病允许的A型亚端粒顺式存在,则该受试者被基因诊断为FSHD1。FSHD2与收缩无关,无法通过这种常见的基因诊断程序进行诊断或排除。然而,FSHD1和FSHD2通过D4Z4阵列在FSHD允许等位基因上的表观遗传失调(以DNA低甲基化测定)而相关联。我们开发了一种基于PCR的检测方法,可识别两种类型FSHD的表观遗传特征,区分FSHD1和FSHD2,并且可以对从血液、唾液或培养细胞中分离的基因组DNA进行检测。
从健康对照或临床诊断为FSHD的患者中获取样本,包括FSHD1和FSHD2。对具有A型亚端粒的远端4q D4Z4重复序列和DUX4 5'启动子区域的基因组DNA进行亚硫酸氢盐测序分析。我们比较了从同一个体的唾液和血液中分离的基因组DNA,发现了相似的表观遗传特征。DNA低甲基化仅限于FSHD1患者中收缩的4qA染色体,而健康对照受试者则为高甲基化。FSHD2的候选者在4qA DUX4基因体以及所有分析的DUX4 5'序列上显示出极端的DNA低甲基化。重要的是,我们的检测方法不会扩增具有非允许性B型亚端粒的D4Z4阵列,并能准确排除具有非允许性A型亚端粒的阵列。
我们开发了一种检测方法,用于识别致病性远端4q D4Z4重复序列上的DNA甲基化变化。我们表明唾液的DNA甲基化谱反映了FSHD状态。该检测方法可以将FSHD与健康对照区分开来,区分FSHD1和FSHD2,不需要HMW基因组DNA或PFGE,并且可以对培养细胞、组织、血液或唾液样本进行检测。
Zotero 插件
