应用PCR技术对DMD患者进行缺失检测与产前基因诊断

运用聚合酶链式反应(polymerasechainreaction,PCR)技术对3个Duchenne型肌营养不良症(DMD)家系中的患者进行dystrophin基因内9个外显子缺失检测,在2个家系中检测到外显子45、48、51缺失,同时运用PCR技术扩增位于dystrophin基因内内含子短串联重复序列,对非缺失型DMD家系进行了产前诊断,胎儿为正常女性.dystrophin基因外显子缺失检测方法快速、敏感、准确,可在临床推广中应用;短串联重复序列(STR)多态性分析方法可用于DMD家系的产前基因诊断和携带者检出.     

中国人群中抗肌萎缩蛋白基因突变类型和分布特点及其与临床症状的相关性

假性肥大型进行性肌营养不良症(Duchenne’s muscular dystrophy,DMD)是源于横纹肌的一种X-连锁隐性致死性遗传病,由编码抗肌营养不良蛋白(dystrophin)基因突变所致。为了探讨中国人群中DMD患者的dystrophin基因突变类型和分布特点及其与临床症状的相关性,文章采用Multiplex Ligation-Dependent Probe Amplification(MLPA)方法对720例DMD患者及其母亲和20例正常成年男性进行dystrophin基因分析。结果显示,检出率为64.9%(467/720),54.3%(391/720)的患者为基因缺失;10.6%(76/720)的患者为基因重复。累及Exon45-54缺失突变型占全部缺失型患者的71.9%(281/391);重复突变型累及Exon1-40占全部重复型患者82.9%(63/76);检出的患者中,DMD型和中间型营养不良症(Intermediate muscular dystrophy,IMD)型占90.6%(423/467),Becker型营养不良症(Becker muscular dystrophy,BMD)型占9.4%(44/467)。表明假肥大型肌营养不良症以dystrophin基因缺失突变为主,突变发生在整个基因中非均匀分布,存在突变热区,在缺失和重复的位置和片段长度与肌病的临床症状严重程度之间并不存在简单的相关关系。     

缺失型Duchenne/Becker 肌营养不良家系女性携带者及新发突变的确认

应用多重PCR（multiple polymerase reaction／mPCR）技术,联合DMD基因内部及附近11个短串连重复序列（short tandem repeats,STRs）位点连锁分析,对缺失型Duchenne／Beeker肌营养不良（Duchenne／Becker Muscular Dystrophy,DMD／BMD）家系成员进行DMD基因分型,确定家系中女性成员是否携带者,并进行产前诊断。3个家系中的4名缺失型患者,其中2例为新发突变：4位女性成员中,1名为携带者。应用mPCR和11个STRs的连锁分析,能快速、准确、客观判断家系中女性成员是否携带者身份,适于DMD／BMD临床研究机构遗传咨询、基因诊断和产前诊断常规应用。但在mPCR分析过程中,发现45号外显子扩增产物在不同凝胶中电泳迁移率不同。聚丙烯酰胺凝胶电泳（Polyacrylamide Gels Electrophoresis／PAGE）对mPCR产物分析快速、清晰,但需要注意片段迁移率,以防止分析错误。     

改良的PEP方法在无创性产前基因诊断中的应用

应用显微操作技术获取孕妇外周血中的单个有核红细胞,改良的PEP方法扩增单个有核红细胞的全基因组DNA;在此基础上,应用荧光标记聚合酶链反应扩增9个微卫星片段,进行基因型分析判定单个有核红细胞来源。综合性别和DMD基因内的数个STR位点连锁分析进行DMD基因诊断,应用PCR-STR连锁分析进行PKU基因诊断。结果显示,对10例DMD高危胎儿中的6例成功地进行了无创性产前基因诊断。同时对1例PKU也成功地进行了无创性产前基因诊断。改良的PEP方法扩增单个细胞的全基因组可以满足基因诊断的要求,是无创性产前基因诊断中一种极有价值的全基因组扩增的方法。 Abstract：We investigated the feasibility of using improved primer extension preamplificat ion method to diagnose DMD and PKU. The fetal nucleated red blood cells from the peripheral blood of pregnant women were detected and individually retrieved into glass capillary pipettes using a micromanipulator under microscopic observation. The whole genome of a single cell was amplified by improved primer extension preamplification (PEP).Genotypes were analyzed by amplifying the 9 STR fragments using fluorescence?PCR technique and NRBC's(nucleated red blood cell) origin w as determined.We diagnosed DMD prenatally using sex determination and linkage an alysis of several STR sites of dystrophin,and we diagnosed PKU prenatally using PCR?STR linkage analysis.6 of 10 potential DMD patients were diagnosed,includin g 1 male fetal patient,1 potential PKU patient was also diagnosed.The improved P EP method is a very valuable method of amplifying the whole genome of single cel ls,and the products of amplification are enough to the requirements of DNA in no n-invasive prenatal diagnosis.     

假肥大型肌营养不良肌细胞抗肌萎缩蛋白的免疫组化研究

目的研究假肥大型肌营养不良患者肌细胞中抗肌萎缩蛋白(dystrophin)的表达及其诊断意义。方法应用针吸型活检术取121例假肥大型肌营养不良症患者(108例DMD患者,13例BMD患者)的肌组织,采用HE染色观察被检肌肉病理改变,免疫组织化学染色技术检测抗肌营养不良蛋白表达,以正常人肌细胞作为对照。结果正常人肌细胞膜上抗肌营养不良蛋白染色阳性,呈完整环形条带沿肌细胞膜分布;DMD患者肌膜完全无显色;BMD患者染色弱阳性,可见沿肌细胞膜分布的间断表达。结果 应用针吸型活检技术和免疫组化染色法检测抗肌营养不良蛋白,有助于DMD和BMD确诊及鉴别诊断。     

一例X染色体结构重排导致DMD疾病

假肥大型肌营养不良(Duchenne/Becker muscular dystrophy,DMD/BMD)是一种最常见的进行性肌营养不良疾病，呈X-连锁隐性遗传，主要由DMD基因的缺失、重复及点突变所致，极少数病例是由于染色体结构重排破坏了DMD基因而引起疾病的发生。本文报告了1例经多重连接探针扩增技术(multiplex ligation-dependent probe amplification,MLPA)和下一代测序检测后原因未明的、具有典型症状的DMD患者。采用核型分析、FISH分析及三代测序、 Sanger测序综合分析发现，患者存在母源性的X染色体臂间倒位(Chr.X:g.[31939463–31939465del; 31939466–131765063 inv; 131765064–131765067del])半合子变异。由于该变异破坏了DMD基因和HS6ST2基因，因此推测该变异是患者发病的遗传学病因。患者表现肌无力等典型的DMD症状，没有明显的Paganini-Miozzo综合征相关症状。本病例的明确诊断，提示结构重排破坏DMD基因也是导致DMD重要原因之一；常规遗传学...     

Kleihauer抗酸染色法标记母血中的胎儿有核红细胞

以18例孕7~25周的孕妇外周血为材料, 经Percoll不连续密度梯度离心初步富集胎儿有核红细胞。然后用Kleihauer抗酸染色法进行标记, 结果阳性胎儿有核红细胞的胞浆呈深红色, 而母亲的有核红细胞胞浆无色。显微操作法获取单个胎儿有核红细胞, 经全基因组扩增后, 产物进行性别鉴定及STR连锁分析检测, 验证有核红细胞的来源, 并完成9例杜氏肌营养不良(Duchenne muscular dystrophy,DMD)的无创性产前基因诊断。应用Kleihauer抗酸染色法标记胎儿有核红细胞, 它是一种快速、简单、直接的化学染色方法, 更易于推广到临床应用。     

CD133^＋干细胞移植——肌营养不良治疗的重大突破

进行性假肥大性肌营养不良（DMD）是进行性肌营养不良病的一种最常见类型,主要影响男性X性连锁隐性遗传性肌肉疾病,以缓慢进行性加重的对称性肌无力和肌萎缩为主要特征。大多数病例有明确的家族史。其主要的病理改变是慢性骨骼肌细胞变性、坏死,出现肌细胞萎缩与代偿性增大相嵌分布的典型表现。     

女性Duchenne/Becker型肌营养不良症携带者发病机理的研究进展

Duchenne/Becker型肌营养不良(DMD/BMD)是一类常见的X连锁隐性遗传病,多见于男性患者,女性携带者一般不发病,因为女性体内会发生随机的X染色体失活,而使体内呈现镶嵌型。目前,越来越多的文献报道DMD/BMD女性携带者发病的病例,其症状有轻有重,但发病机制尚不明了,大多数研究认为与X染色体的偏斜失活有关,即携带DMD突变的X染色体异常活化,使正常DMD基因弱或无表达,从而无法生成正常功能的dystrophin蛋白,表现为DMD/BMD。本文主要综述了X偏斜失活与DMD女性携带者发病相关性的研究进展。     

Duchenne型肌营养不良患儿的临床特征和基因突变分析

摘要 目的：分析中国新疆地区Duchenne型肌营养不良（DMD）患儿的临床特征以及基因突变类型和分布。方法：回顾性分析2017年1月至2021年10月新疆医科大学第一附属医院收治的85例DMD患儿的病例资料,分析其一般资料、肌酶谱指标水平、核磁及肌电图表现、肌肉活检结果、认知功能差异以及基因变异分布特点。结果：85例DMD患儿中有5例是女性,其中汉族24例（28.24%）,少数民族61例（71.76%）,10例有家族史,9例有误诊经历。就诊原因以行走困难或运动倒退多见,其次为转氨酶、肌酸激酶异常升高。70例患儿行肌肉核磁检查,其中58例符合DMD,共有60例患儿完善肌电图,其中53例为肌源性损害。38例患儿完善认知功能评价,韦氏儿童智力量表第Ⅳ版总智商（FSIQ）得分45～110分,平均（79.93±18.31）,其中10例患儿存在认知功能障碍（FSIQ＜70分）,占26.31%。DMD患儿的言语智商（VIQ）、操作智商（PIQ）、FSIQ得分均显著低于正常儿童水平（P＜0.001）。16例患儿进行肌肉活检,15例符合DMD病理变化,1例组织学形态正常。71例患儿行多重连接探针扩增法（MLPA）检测,其中57例阳性,异常检出率为80.28%,其中基因变异类型分别为：50例是缺失,14例是点突变,7例是重复。缺失突变的高发位置是45～49号外显子,在DMD基因的2～9端多出现重复突变。结论：DMD患儿起病隐匿,首发症状多,需要临床各科医生共同协助进行早期诊断、早期治疗和预防。     

MLPA: A prenatal diagnostic tool for the study of congenital heart defects?

Congenital heart defects (CHD) represent the most common birth defects, so they are not a rare finding when performing routine ultrasound examinations during pregnancy. Once chromosome abnormalities have been excluded in a fetus with a CHD, chromosome 22q11.2 deletion is usually investigated by FISH, as it is the most frequent microdeletion syndrome and is generally associated with cardiac malformations. If 22q11.2 microdeletion is ruled out, the etiology of the CHD remains generally unexplained, making familial genetic counseling difficult. To evaluate the usefulness of Multiplex Ligation-dependent Probe Amplification (MLPA) kits designed for the study of 22q11.2 and other genomic regions previously associated with syndromic CHD, we performed MLPA in 55 pregnancies with fetuses presenting CHD, normal karyotype and negative FISH results for 22q11.2 microdeletion, which constitutes the largest prenatal series reported. Definitive MLPA results were obtained in 50 pregnancies, and in this setting such MLPA kits did not detect any imbalance. On the other hand, to compare FISH and MLPA techniques for the study of 22q11.2 microdeletions, we performed MLPA in 4 pregnancies known to have 22q11.2 deletions (by FISH). All four 22q11.2 microdeletions were also detected by MLPA, which corroborates that it is a reliable technique for the diagnosis and characterization of 22q11.2 deletions. Finally, we evaluated the possibility of replacing conventional FISH by MLPA for the prenatal diagnosis of CHD, comparing the diagnostic potential, results delivery times, repetition and failure rates and cost of both techniques, and concluded that FISH should still be the technique of choice for the prenatal diagnosis of fetuses with CHD.     

Identification of deletions and duplications of the DMD gene in affected males and carrier females by multiple ligation probe amplification (MLPA)

Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) are caused in the majority of cases by deletions of the DMD gene and are readily detectable in affected males by multiplex polymerase chain reaction (PCR). However, different approaches must be used for the identification of female carriers, in which deletions are not detectable by PCR, because of the presence of a normal X chromosome. In this study, we used the multiple ligation probe amplification (MLPA) tool for the identification of female carriers of DMD deletions or duplications in 12 families with a single affected male, 10 of which were previously diagnosed as carriers of a DMD rearrangement, and the remaining two as having an unknown disease-causing mutation. In all the investigated affected males, MLPA analysis confirmed the presence of a DMD rearrangement, and in six of them allowed the refinement of the breakpoints. In 12 female relatives of the affected patients, MLPA analysis showed a DMD deletion or duplication, confirming their carrier status. Two of these were the mother and the sister of a patient whose disease-causing mutation was not known. MLPA analysis thus proved to be an useful tool for the analysis of both affected males and females carriers of DMD rearrangements in cases in which the disease-causing mutation in the affected male was not known, providing useful information for the genetic counselling of the family.Valentina Gatta and Oronzo Scarciolla contributed equally to this work.     

Utility of MLPA in mutation analysis and carrier detection for Duchenne muscular dystrophy

CONTEXT:

Multiplex ligation probe amplification (MLPA) is a new technique to identify deletions and duplications and can evaluate all 79 exons in dystrophin gene in patients with Duchenne muscular dystrophy (DMD). Being semi-quantitative, MLPA is also effective in detecting duplications and carrier testing of females; both of which cannot be done using multiplex PCR. It has found applications in diagnostics of many genetic disorders.

AIM:

To study the utility of MLPA in diagnosis and carrier detection for DMD.

MATERIALS AND METHODS:

Mutation analysis and carrier detection was done by multiplex PCR and MLPA and the results were compared.

RESULTS AND CONCLUSIONS:

We present data showing utility of MLPA in identifying mutations in cases with DMD/BMD. In the present study using MLPA, we identified mutations in additional 5.6% cases of DMD in whom multiplex PCR was not able to detect intragenic deletions. In addition, MLPA also correctly confirmed carrier status of two obligate carriers and revealed carrier status in 6 of 8 mothers of sporadic cases.     

Improved Detection of Deletions and Duplications in the DMD Gene Using the Multiplex Ligation-Dependent Probe Amplification (MLPA) Method

The multiplex ligation-dependent probe amplification (MLPA) assay is the most powerful tool in screening for deletions and duplications in the dystrophin gene in patients with Duchenne and Becker muscular dystrophy (DMD/BMD). The efficacy of the assay was validated by testing 20 unrelated male patients with DMD/BMD who had already been screened by multiplex PCR (mPCR). We detected two duplications that had been missed by mPCR. In one DMD patient showing an ambiguous MLPA result, a novel mutation (c.3808_3809insG) was identified. MLPA improved the mutation detection rate of mPCR by 15 %. The results of our study (1) confirmed MLPA to be the method of choice for detecting DMD gene rearrangements in DMD/BMD patients, (2) showed that ambiguous MLPA amplification products should be verified by other methods, and (3) indicated that the MLPA method could be used in screening even for small mutations located in the probe-binding regions.     

Screening for DMD/BMD deletion carriers by fluorescence in situ hybridization

Fluorescence in situ hybridization (FISH) serves as an excellent alternative for direct detection of heterozygous deletions. Using a set of exon-specific cosmid DNA probes representing 18 exons, one-color FISH on metaphase and interphase preparations was performed to identify Duchenne/Becker muscular dystrophy (DMD/BMD) deletion carriers. The peripheral blood samples from 9 normal male or female controls and 5 females of independent DMD/BMD families, as well as 2 amniotic fluid specimens and 2 chorionic villus samples (CVS) from normal pregnant females, were analyzed. Expected signals were displayed in 72-100% of peripheral blood lymphocyte metaphases or interphases, 60-70% of amniocyte interphases, and 95-99% of chorionic villus cell interphases. One suspected female was identified as a deletion carrier and two were excluded. The results indicated that metaphase and interphase FISH were both useful for detection of heterozygous deletions. FISH, in combination with other available techniques, allowed efficient screening of DMD/BMD deletion carriers. The study also offered preliminary results in support of an approach to prenatal diagnosis of potential fetal carriers.     

Molecular diagnosis of Duchenne/Becker muscular dystrophy by polymerase chain reaction and microsatellite analysis

Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) are X-linked recessive genetic disorders resulting from mutations in the dystrophin gene. About two-thirds of the affected patients have large deletions or duplications, which occur in the 5' and central region of the gene. The remaining DMD/BMD cases show no deletions, so they cannot be easily identified by current strategies. In these DMD/BMD families, a linkage analysis that involves DNA markers of the flanking and intragenic dystrophin gene are necessary for carrier and prenatal diagnosis. We analyzed eighteen deletion-prone exons of the gene by a polymerase chain reaction (PCR) in order to characterize the molecular defects of the dystrophin gene in Korean DMD/BMD families. We also performed a linkage analysis to assess the usefulness and application of six short tandem repeat markers for molecular diagnosis in the families. We observed a deletion that eliminated the exon 50. Also, a linkage analysis in the families with six short tandem repeat (STR) markers showed heterozygosity at most of the STR markers. The haplotype analysis was useful for detecting the carrier status. This study will be helpful for a molecular diagnosis of DMD/BMD families in the Korean population.     

Evaluation of point mutations in dystrophin gene in Iranian Duchenne and Becker muscular dystrophy patients: introducing three novel variants

Duchenne and Becker muscular dystrophies (DMD and BMD) are X-linked neuromuscular diseases characterized by progressive muscular weakness and degeneration of skeletal muscles. Approximately two-thirds of the patients have large deletions or duplications in the dystrophin gene and the remaining one-third have point mutations. This study was performed to evaluate point mutations in Iranian DMD/BMD male patients. A total of 29 DNA samples from patients who did not show any large deletion/duplication mutations following multiplex polymerase chain reaction (PCR) and multiplex ligation-dependent probe amplification (MLPA) screening were sequenced for detection of point mutations in exons 50–79. Also exon 44 was sequenced in one sample in which a false positive deletion was detected by MLPA method. Cycle sequencing revealed four nonsense, one frameshift and two splice site mutations as well as two missense variants.     

Molecular genetic characteristics of Duchenne-Becker muscular dystrophy in the Republic of Moldova

Solution to some problems of clinical genealogical and molecular genetic study of Duchenne muscular dystrophy (DMD) in the Republic of Moldova and prenatal diagnosis aimed at preventing the birth of infants with this disease is proposed. An integrated clinical and molecular genetic study of families with a high risk of DMD has allowed its specific characteristics in the Moldovan population to be identified. The spectrum of mutations at the gene level in DMD patients and their role in prenatal and clinical diagnosis has been determined. RFLP analysis and PCR have been used to estimate the informativeness of families with a high DMD risk; prenatal diagnosis has been performed in some of them. Population analysis of the frequencies of polymorphic restriction sites have been carried out for loci pERT87-8/Tag1, pERT87-15/BamH1, and 16intron/Tag1. The results of analysis of deletion frequencies in the dystrophin gene and the frequencies of the pERT87-8, pERT87-15, and 16intron intragenic polymorphic loci have served as a basis for a strategy of molecular diagnosis. The new strategy allows the informativeness to be evaluated and, hence, clinical, preclinical, and prenatal diagnosis to be performed in approximately 94% of cases. A modified PCR method (MPCR) using the system of primers pERT87-8/Tag1 and 16intron/Tag1 has been developed for direct search for deletions. The method makes it possible to avoid diagnostic errors and decrease both the duration and the cost of the analysis.     

Detection of deletions and duplications in the Duchenne muscular dystrophy gene by the molecular method MLPA in the first Argentine affected families

Deletions/duplications in the Duchenne muscular dystrophy (DMD) gene account for 60 to 70% of all alterations. A new technique, multiplex ligation-dependent probe amplification (MLPA), has been described that allows the detection of large genetic rearrangements by simultaneous amplification of up to 45 target sequences. The present article is based on the diagnosis of the first Argentine affected families by the application of MLPA. DNA samples from patients with and without a previous diagnosis were included. MLPA assays were performed according to manufacturer recommendations. Polymerase chain reaction and direct sequencing were performed when a single-exon deletion was detected. Results were analyzed using the Gene Marker v1.6 and Sequencing Analysis v5.2 software. In the samples with a previous diagnosis (as identified by short tandem repeat-polymerase chain reaction analysis), MLPA confirmed in some samples the same deletion and detected in others a larger deleted fragment. This enabled the prediction of the expected male phenotype. One deletion and one duplication were detected in patients without previous diagnosis. In this study, we investigated the applicability of MLPA in our country. Our results showed a 100% confirmation of the deleted fragments detected by short tandem repeat segregation analysis. Moreover, in some cases, the MLPA assay was able to refine the breakpoints involved. In addition, MLPA identified deletions/duplications in samples without previous diagnosis. In comparison to the available diagnosis strategies in Argentina, MLPA is less time-consuming, and spans the complete coding region of DMD. The application of MLPA will improve the genetic diagnosis of DMD/Becker muscular dystrophy in our country.