汉族马凡综合征(MFS)患者FBN1基因两种新发突变分析

为调查马凡综合征(Marfan syndrome, MFS)患者的原纤维蛋白-1(Fibrillin-1, FBN1)基因突变情况, 应用聚合酶链反应(PCR)和变性高效液相色谱法(Denaturing high-performance liquid chromatography, DHPLC)对MFS患者的FBN1基因进行突变筛查, 对DHPLC初筛异常的DNA片段进行测序分析。结果在两个MFS家系中发现FBN1基因两种新的突变: 一种为复合突变包含第55号外显子的缺失突变c.6862_6871delGGCTGTGTAG (p.Gly2288MetfsX109)、同义突变c.6861A>G和内含子的突变c.[6871+1_6871+11delGTAAGAGGATC; 6871+34dupCATCAGAAGTGACAGTGGACA]; 另一种为第20号外显子的错义突变c.2462G>A(p.Cys821Tyr)。研究表明, FBN1基因的缺失突变c.[6862_6871delGGCTGTGTAG; 6871+1_6871+11delGTAAGAGGATC] (p.Gly2288MetfsX109)和错义突变c.2462G>A(p.Cys821Tyr)可能分别是这两个家系患者的致病原因。     

一个中国Gilbert综合征家系的遗传学分析

对一个中国汉族Gilbert综合征遗传家系致病基因突变位点进行鉴定,以期了解该病的分子遗传学基础。首先提取先证者基因组DNA,PCR扩增尿苷二磷酸葡萄糖醛酸转移酶UGT1A1基因的5个外显子,以琼脂糖电泳鉴定PCR产物,纯化后直接测序鉴定。基因扫描显示,与血清胆红素水平密切相关的UGT1A1基因在第1和第5外显子存在纯合突变,而 UGT1A1基因启动子区域和内含子/外显子剪接边界位点序列未检测到突变。进一步对其他家系成员该基因的相应位点进行突变检测,结果显示他们在第1和第5外显子也存在杂合突变,其中还有两个成员在启动子区域检测到(TA)插入突变。对家系成员未抗凝新鲜血液进行生化检测证实了基因突变分析的结果。综合以上结果发现该家系三种突变并存,致病因素为第1和/或第5外显子突变,为显性遗传,两种突变位点纯合导致先证者出现严重胆红素代谢功能障碍。该家系因此成为Gilbert综合征突变位点及其致病机理研究的一个典型临床病例。     

一性连锁Alport综合征中国家系COL4A5基因新突变位点的检测

通过PCR和直接测序的方法,对一性连锁Alport综合征家系17个受检个体的COL4A5基因所有51个外显子及其相邻内含子的DNA序列进行检测。结果发现,在第26外显子2240位点,男患者存在C碱基缺失(2240delc),女患者存在杂合缺失,同时对女患者相应的PCR产物进行克隆和测序以验证PCR测序结果的可靠性,而在正常家系成员和80例对照中均未发现此位点异常,说明2240delc为引起该家系临床病变的突变位点,不是多态性位点。在性连锁Alport综合征中,COL4A5基因的这个单碱基缺失突变位点为首次报道。     

中国遗传性胰腺炎患者胰蛋白酶原基因多位点杂合突变及其临床特征

用基因产物直接测序法对2个遗传性胰腺炎家系中胰腺炎患者(共有4例成员)的胰蛋白酶原基因(cationic trypsinogen,PRSS1)5个外显子进行测序,并分析其各自的临床特征.在4例胰腺炎患者中均出现了PRSS1基因杂合突变,但两家系PRSS1基因突变的位点不同,且临床表现差异较大,其中家系1出现6例糖尿病患者且发病年龄较家系2明显延迟,平均发病年龄为29岁,分析其PRSS1基因发现3号外显子336位碱基存在G→A杂合性突变,为中性突变,表达的氨基酸从赖氨酸(Lys)→赖氨酸(Lys),同时在同一外显子的361位碱基还存在另一个G→A杂合性突变,造成121位的丙氨酸(Ala)被苏氨酸(Thr)所取代,胰蛋白酶原的空间结构发生改变,其与抑制因子的结合位点消失,"保护失败"而产生有活性的胰蛋白酶,造成胰腺自身的消化.而家系2未发现糖尿病患者,其胰腺炎患者的血清肿瘤标志物不增高,先证者(Ⅲ8)在胰腺炎发病过程中表现为CD4 T/CD8 Tcell和乙肝表面抗体(anti-HBs)随病程进展逐渐降低,而Ⅲ7不表现出此现象,分析其PRSS1基因发现3号外显子361位碱基同样存在G→A(c.361G→A)突变,而且在415位还存在一个杂合性突变点T→A(c.415T→A),其中c.415T→A不存在于Ⅲ7.胰蛋白酶原基因存在多种形式的突变,而且与临床表型相关.     

粘多糖贮积症Ⅱ型患者IDS基因的2个新突变

为了研究粘多糖贮积症II型(MPS Ⅱ)患者发病的分子遗传学机制, 采用PCR扩增艾杜糖-2-硫酸酯酶(IDS)基因突变热点区(外显子2、3、5、7、8和9)、DNA测序分析和限制性内切酶图谱分析的方法, 对2个粘多糖贮积症Ⅱ型家系进行了遗传突变分析。结果表明, 2个家系患者的IDS 基因分别出现IVS 6-1g→a和c.1587~1588 ins T 2个新突变。前者属于单碱基替换, 位于内含子6的3′端剪接位点, 导致跨外显子剪接; 后者属于插入突变, 插入点位于外显子9的cDNA 1,587和1,588碱基之间, 是迄今为止报道的人类IDS基因插入突变中最接近肽链末端的突变, 导致移码突变和转录提前终止。经限制性酶切分析, 证实2个家系中的患者母亲是突变基因的携带者, 符合该病X染色体隐性遗传的规律。另外,在对随机抽取的50名正常人及另外6名不相关的粘多糖病人的测序分析中, 未检测到这2个突变, 说明不是多态性。对于筛查所得的2个新突变是否是患者的致病原因, 尚需进一步证实。     

一个遗传性胰腺炎家系中新发现的胰蛋白酶原基因突变

对1个遗传性胰腺炎(hereditary pancreatitis, HP)家系中6例成员和120例无亲缘关系健康人的胰蛋白酶原基因(protease serine 1, PRSS1)进行PCR扩增, 产物纯化后测序, 结合受检者的血清肿瘤标志物、糖尿病相关生化指标以及近亲属的一般临床资料进行分析。结果发现4例家系成员PRSS1基因3号外显子区136位碱基存在C→T杂合性突变, 他们的基因型表现为野生型与突变型杂合现象, 另外在先证者PRSS1基因的3号外显子区171位碱基还存在着一个同义突变点(C→T), 而对照组和家系其他成员中未发现此两种突变, 突变阳性患者表现为乳酸、糖基化血红蛋白和糖类肿瘤标志物(CA19-9、CA125)增高。因此, PRSS1基因3号外显子区136位碱基C→T杂合性突变与该家系遗传性胰腺炎有关, 是该家系中遗传性胰腺炎的遗传易感因素。     

心脏肌球蛋白重链基因c.1273G>A突变与肥厚型心肌病的关联分析

为研究中国人家族性肥厚型心肌病(HCM)的致病基因突变位点, 分析基因型与临床表型的相互关系, 文章在1个中国汉族HCM家系中进行心脏肌钙蛋白T (TNNT2) 基因、心脏肌球蛋白结合蛋白C (MYBPC3) 基因和心脏β-肌球蛋白重链 (MYH7) 基因的突变筛查, 聚合酶链式反应(PCR)扩增基因功能区外显子片段并对PCR产物进行测序分析。结果表明: 在该家系接受调查的7名成员中有4名成员携带MYH7基因c.1273G>A杂合突变, 该突变位点位于MYH7基因的14号外显子并使425位的甘氨酸(Gly)转换为精氨酸(Arg)。该突变首次在国内HCM家系中发现, 突变携带者的临床表型在家系内部呈现明显的异质性。该家系成员TNNT2及MYBPC3基因未发现突变且正常对照组相同位置未发现异常。MYH7基因是我国家族性 HCM的致病基因之一, 携带c.1273G>A突变的肥厚型心肌病患者临床表型差异明显, 提示可能有其它因素参与了肥厚型心肌病的发展过程。     

一个中国B1型短指家系致病基因的突变分析

文章收集了一个中国B1型短指家系,通过连锁分析,发现该家系疾病的致病基因与ROR2基因连锁。PCR扩增ROR2基因突变热点区域后直接测序,在家系患者中发现一个c.2265C>A的杂合突变,该突变在蛋白质水平导致p.Y755X的改变,从而产生缺失部分结构域的截短ROR2蛋白,而在家系正常人以及家系外正常人中均未发现此突变。文章是国内首次报道B1型短指家系ROR2基因c.2265C>A突变,丰富了中国人ROR2基因突变谱。     

心脏肌球蛋白重链基因c.1273G〉A突变与肥厚型心肌病的关联分析

为研究中国人家族性肥厚型心肌病(HCM)的致病基因突变位点,分析基因型与临床表型的相互关系,文章在1个中国汉族HCM家系中进行心脏肌钙蛋白T(TNNT2)基因、心脏肌球蛋白结合蛋白C(MYBPC3)基因和心脏β-肌球蛋白重链(MYH7)基因的突变筛查,聚合酶链式反应(PCR)扩增基因功能区外显子片段并对PCR产物进行测序分析.结果表明:在该家系接受调查的7名成员中有4名成员携带MYH7基因c.1273G>A杂合突变,该突变位点位于MYH7基因的14号外显子并使425位的甘氨酸(Gly)转换为精氨酸(Arg).该突变首次在国内HCM家系中发现,突变携带者的临床表型在家系内部呈现明显的异质性.该家系成员TNNT2及MYBPC3基因未发现突变且正常对照组相同位置未发现异常.MYH7基因是我国家族性HCM的致病基因之一,携带c.1273G>A突变的肥厚型心肌病患者临床表型差异明显,提示可能有其它因素参与了肥厚型心肌病的发展过程.     

线粒体T12338C突变可能是与Leber遗传性视神经病变相关的突变位点

Leber遗传性视神经病变变(Leber’s hereditary optic neuropathy,LHON)是一种与线粒体DNA(Mito-chondrial DNA,mtDNA)突变相关的母系遗传性眼科疾病。文章报道了两例具有典型LHON临床、分子遗传特征的中国汉族家系。首先通过对家系先证者和其他成员进行眼科相关检查,发现两个家系成员中视力都仅有先证者一人损害严重,即外显率很低。经常规的方法对母系成员进行mtDNA测序及相关软件分析,结果发现携带ND4 G11696A和ND5 T12338C同质性突变位点,多态性变异位点均属于东亚单体型F2。线粒体DNA ND4 G11696A是一个已知的与LHON相关的突变位点,而T12338C位于线粒体氧化磷酸化复合体I亚基ND5的第2个碱基,该突变使起始密码子由蛋氨酸转变成苏氨酸,并且紧连tRNALeu(CUN)的3′末端。这可能影响tRNA Leu(CUN)空间结构和稳定性发生改变,以及起始密码子改变导致线粒体ND5蛋白合成功能受损和ATP障碍,最终导致需求能量高的视神经受损和视力损害。因此,线粒体ND4 G11696A和ND5 T12338C突变可能协同作用Leber遗传性视神经病变的发生,是与LHON相关的mtDNA突变位点,但外显率很低说明突变本身不足以造成LHON的表型表达,提示其他修饰因子(核修饰基因、环境等)可能对这两个家系发病起协同作用。     

Evaluation of clinical significance of с.2956G&gt;A (rs112287730) polymorphism in <Emphasis Type="Italic">FBN1</Emphasis> gene in Marfan syndrome

Marfan syndrome (MFS) is an autosomal dominant inherited systemic disorder of connective tissue with many clinical manifestations in the cardiovascular, skeletal, and ocular systems. MFS is caused by mutations in the fibrillin-1 (FBN1) gene. To date, about 2000 FBN1 pathogenic variants that cause MFS or related phenotypes have been described. The c.2956G>A, p.Ala986Thr substitution (exon 25) in the FBN1 gene is described in the SNP database as rs112287730 with allele frequency of 0.02%. Although numerous published data exist, the clinical significance of this variant is unknown. Some studies identify this substitution as probably a pathogenic mutation, and others, as a polymorphism. Among Russian Marfan patients, the heterozygous c.2956G>A substitution was identified in four probands; three of them had familial history. To determine the clinical significance of this substitution, a segregation analysis of DNA samples of affected and unaffected family members was conducted. In the first case, a segregation of the c.2956G>A substitution with the disease was observed in the family: this substitution was detected in the heterozygous state in the three affected members, but not in the one unaffected member. However, the opposite observation occurred in the second familial case: three affected members did not have the c.2956G>A substitution, whereas it was found in one unaffected member. In addition, the molecular-genetic analysis of 110 ethnically unrelated unexplored individuals was performed. The c.2956G>A substitution was identified in two of 220 examined chromosomes (allele frequency 0.9%). Thus, it was established that the c.2956G>A substitution appears to be a polymorphism (nonpathogenic variant) and cannot cause MFS.     

Novel <Emphasis Type="Italic">FBN1</Emphasis> mutations are responsible for cardiovascular manifestations of Marfan syndrome

The fibrillin-1 (FBN1) gene mutations result in Marfan syndrome (MFS) and have a variety of phenotypic variations. This disease is involved in the skeletal, ocular and cardiovascular system. Here we analyzed genotype-phenotype correlation in two Chinese families with MFS. Two patients with thoracic aortic aneurysms and dissections were diagnosed as MFS according to the revised Ghent criteria. Peripheral blood samples were collected and genomic DNAs were isolated from available cases, namely, patient-1 and his daughter and son, and patient-2 and his parents. According to the next-generation sequencing results, the mutations in FBN1 were confirmed by direct sequencing. A heterozygous frameshift mutation in exon 12 of FBN1 was found in the proband-1 and his daughter. They showed cardiovascular phenotype thoracic aortic aneurysms and dissections, a life-threatening vascular disease, and atrial septal defect respectively. One de novo missense mutation in exon 50 of FBN1 was identified only in the patient-2, showing aortic root aneurysm and aortic root dilatation. Intriguingly, two novel mutations mainly caused the cardiovascular complications in affected family members. No meaningful mutations were found in these two patients by screening all exons of 428 genes related with cardiovascular disease. The high incidence of cardiovascular manifestations might be associated with the two novel mutations in exon 12 and 50 of FBN1.     

Novel non-synonymous mutation in the transforming growth factor beta binding protein-like (TB) domain of the fibrillin-1 (FBN1) gene in a Han Chinese family with Marfan syndrome (MFS)

In order to further understand the role of fibrillin-1 (FBN1, OMIM 134797) perturbations in the pathogenesis of Marfan syndrome (MFS, OMIM 154700) we studied a Han Chinese family in which MFS was segregating. In the Chinese family with 5 affected members, mutation screening for FBN1 was performed using direct sequencing. A novel non-synonymous mutation in the transforming growth factor beta binding protein-like (TB) domain of the FBN1 gene was found. The missense mutation c.3022T>C (C1008R) located in exon 24. This mutation was present in the proband and in two other affected family members, but in neither unaffected family members nor unrelated control subjects. The novel non-synonymous mutation, c.3022T>C (C1008R) in the TB domain of FBN1 gene, may be involved in the pathogenesis of MFS in a Han Chinese family.     

Identification of an FBN1 mutation in bovine Marfan syndrome-like disease

Mutations in the gene encoding fibrillin-1 (FBN1), a component of the extracellular microfibril, cause Marfan syndrome (MFS). Frequent observation of cattle with a normal withers height, but lower body weight than age-matched normal cattle, was recently reported among cattle sired by phenotypically normal Bull A, in Japanese Black cattle. These cattle also showed other characteristic features similar to the clinical phenotype of human MFS, such as a long phalanx proximalis, oval face and crystalline lens cloudiness. We first screened a paternal half-sib family comprising 36 affected and 10 normal offspring of Bull A using the BovineSNP50 BeadChip (illumina). Twenty-two microsatellite markers mapped to a significant region on BTA10 were subsequently genotyped on the family. The bovine Marfan syndrome-like disease (MFSL) was mapped onto BTA10. As FBN1 is located in the significant region, FBN1 was sequenced in Bull A, and three affected and one normal cattle. A G>A mutation at the intron64 splicing accepter site (c.8227-1G>A) was detected in 31 of 36 affected animals (84.7%). The c.8227-1G>A polymorphism was not found in 20 normal offspring of Bull A or in 93 normal cattle unrelated to Bull A. The mutation caused a 1-base shift of the intron64 splicing accepter site to the 3' direction, and a 1-base deletion in processed mRNA. This 1-base deletion creates a premature termination codon, and a 125-amino acid shorter Fibrillin-1 protein is produced from the mutant mRNA. We therefore conclude that the c.8227-1G>A mutation is causative for MFSL. Furthermore, it was suggested that Bull A exhibited germline mosaicism for the mutation, and that the frequency of the mutant sperm was 14.9%.     

Multiple Molecular Mechanisms Underlying Subdiagnostic Variants of Marfan Syndrome

Mutations in the FBN1 gene, which encodes fibrillin-1, cause Marfan syndrome (MFS) and have been associated with a wide range of milder, overlap phenotypes. The factors that modulate phenotypic severity, both between and within families, remain to be determined. This study examines the relationship between the FBN1 genotype and phenotype in families with extremely mild phenotypes and in those that show striking clinical variation among apparently affected individuals. In one family, clinically similar but etiologically distinct disorders are segregating independently. In another, somatic mosaicism for a mutant FBN1 allele is associated with subdiagnostic manifestations, whereas germ-line transmission of the identical mutation causes severe and rapidly progressive disease. A third family cosegregates mild mitral valve prolapse syndrome with a mutation in FBN1 that can be functionally distinguished from those associated with the classic MFS phenotype. These data have immediate relevance for the diagnostic and prognostic counseling of patients and their family members.     

Marfan syndrome: whole-exome sequencing reveals de novo mutations,second gene and genotype–phenotype correlations in the Chinese population

Marfan syndrome (MFS) is a dominant monogenic disease caused by mutations in fibrillin 1 (FBN1). Cardiovascular complications are the leading causes of mortality among MFS. In the present study, a whole-exome sequencing of MFS in the Chinese population was conducted to investigate the correlation between FBNI gene mutation and MFS. Forty-four low-frequency harmful loci were identified for the FBN1 gene in HGMD database. In addition, 38 loci were identified in the same database that have not been related to MFS before. A strict filtering and screening protocol revealed two patients of the studied group have double mutations in the FBN1 gene. The two patients harboring the double mutations expressed a prominent, highly pathological phenotype in the affected family. In addition to the FBN1 gene, we also found that 27 patients had mutations in the PKD1 gene, however these patients did not have kidney disease, and 16 of the 27 patients expressed aortic related complications. Genotype-phenotype analysis showed that patients with aortic complications are older in the family, aged between 20 and 40 years.     

The roles of two novel FBN1 gene mutations in the genotype-phenotype correlations of Marfan syndrome and ectopia lentis patients with marfanoid habitus

Mutations in the fibrillin-1 (FBN1) gene have been identified in patients with Marfan syndrome (MFS) and Marfan-like connective tissue disorders. In this study, two Chinese families were recruited. The patients in family 1 were well characterized with MFS, while those in family 2 displayed Marfan-like disorders such as ectopia lentis (EL) and marfanoid habitus, but did not develop cardiovascular diseases. We aimed to analyze the pathogenic mutations and their relationships with phenotypes in these two Chinese families. All participants underwent complete physical, ophthalmic, and cardiovascular examinations. The 65 exons and flanking intronic sequences of FBN1 were amplified by polymerase chain reaction, and screened for mutations by denaturing high-performance liquid chromatography and sequencing. One hundred and fifteen unrelated controls were analyzed using the same methods to confirm the mutations. In family 1, we identified the mutation p.C499S in the calcium-binding epidermal growth factor (cbEGF)-like domain 3 of FBN1. In family 2, the mutation p.C908Y was identified in an interdomain region of the hybrid motif 2 linked to the cbEGF-like domain 10. It can be concluded that FBN1 mutations involving cysteine substitutions are usually associated with MFS and EL with some MFS features. Moreover, pathology seemed more serious when the mutations disrupted the three disulfide bridges in the cbEGF-like domains, which was more likely to cause typical MFS than if the mutations occurred in the hybrid motifs. Our data preliminarily establish a genotype-phenotype correlation in the diagnostic process of MFS and predominant EL with Marfan-like features.     

Recurrent and founder mutations in the Netherlands

Background/Methods. Marfan syndrome (MFS) is a heritable connective tissue disorder usually caused by a mutation in the fibrillin 1 (FBN1) gene. Typical characteristics of MFS that have been described include dolichostenomelia, ectopia lentis and aortic root dilatation. However, there is great clinical variability in the expression of the syndrome’s manifestations, both between and within families. Here we discuss the clinical variability of MFS by describing a large fourgeneration Dutch family with MFS. Results. Nineteen individuals of one family with a single missense FBN1 mutation (c.7916A>G) were identified. The same mutation was found in one unrelated person. Clinical variability was extensive and not all mutation carriers fulfilled the diagnostic criteria for MFS. Some patients only expressed mild skeletal abnormalities, whereas aortic root dilation was present in eight patients, an acute type A aortic dissection was recorded in two other patients, and a mitral valve prolapse was present in eight patients. In some patients cardiac features were not present on initial screening, but did however develop over time. Conclusion. MFS is a clinically highly variable syndrome, which means a meticulous evaluation of suspected cases is crucial. Mutation carriers should be re-evaluated regularly as cardiovascular symptoms may develop over time. (Neth Heart J 2010;18:85–9.)