Prevalence and ethnic differences of autosomal-dominant cerebellar ataxia in Singapore

We report the prevalence and ethnic differences of autosomal-dominant cerebellar ataxia (ADCA) in Singapore. Amongst 204 patients with ataxia who underwent genetic testing for dentatorubral-pallidoluysian atrophy (DRPLA) and for spinocerebellar ataxias (SCA) 1, 2, 3, 6, 7, 8, 10 and 12, 58 (28.4%) patients from 36 families tested positive. SCA 3 was identified in 31 (53.4%) patients from 15 families, SCA 2 in 17 (29.3%) patients from 12 families and SCA 1 in four (6.9%) patients from four families. Other SCA subtypes were rare. SCA 2 was the only subtype identified amongst ethnic Malay and ethnic Indian families. The estimated prevalence of ADCA in Singaporean families was at least 1 : 27,000. Based on the history and ancestry of Singaporeans, our study supported a founder effect for specific SCA subtypes and the association of ethnicity-specific SCA subtypes. Our findings suggest that SCA 2 is relatively common amongst the Malay race and that priority testing for SCA 3 and SCA 2 for ethnic Chinese, and SCA 2 for ethnic Malay, may be cost effective and relevant for the region.     

Spectrum and prevalence of autosomal dominant spinocerebellar ataxia in Hokkaido,the northern island of Japan: a study of 113 Japanese families

Autosomal dominant cerebellar ataxia (ADCA) is a genetically heterogeneous group of neurodegenerative disorders. To shed further light on the clinical and genetic spectrum of ADCA in Japan, we conducted a study to determine the frequency of a new variety of different subtypes of SCAs among ADCA patients. This current study was carried out from April 1999 to December 2006 on the basis of patients with symptoms and signs of ADCA disorders. PCR and/or direct sequencing were evaluated in a total of 113 families. Among them, 35 families were found to have the mutation associated with SCA6, 30 with SCA3, 11 with SCA1, five with SCA2, five with DRPLA, and one with SCA14. We also detected the heterozygous −16C → T single nucleotide substitution within the puratrophin-1 gene responsible for 16q22.1-linked ADCA in ten families. In this study, unusual varieties of SCA, including 27, 13, 5, 7, 8, 12, 17, and 16 were not found. Of the 113 patients, 14% had as yet unidentified ADCA mutations. The present study validates the prevalence of genetically distinct ADCA subtypes based on ethnic origin and geographical variation, and shows that 16q-linked ADCA has strong hereditary effects in patients with ADCAs in Japan. Rehana Basri, Ichiro Yabe, and Hiroyuki Soma contributed equally to this work.     

A −16C>T substitution in the 5′ UTR of the puratrophin-1 gene is prevalent in autosomal dominant cerebellar ataxia in Nagano

The molecular bases of autosomal dominant cerebellar ataxia (ADCA) have been increasingly elucidated, but 17–50% of ADCA families still remain genetically undefined in Japan. In this study we investigated 67 genetically undefined ADCA families from the Nagano prefecture, and found that 63 patients from 51 families possessed the –16C>T change in the puratrophin-1 gene, which was recently found to be pathogenic for 16q22-linked ADCA. Most patients shared a common haplotype around the puratrophin-1 gene. All patients with the –16C>T change had pure cerebellar ataxia with middle-aged or later onset. Only one patient in a large, –16C>T positive family did not have this change, but still shared a narrowed haplotype with, and was clinically indistinguishable from, the other affected family members. In Nagano, 16q22-linked ADCA appears to be much more prevalent than either SCA6 or dentatorubral-pallidoluysian atrophy (DRPLA), and may explain the high frequency of spinocerebellar ataxia.Takako Ohata and Kunihiro Yoshida have equally contributed to this work     

Difference in disease‐free survival curve and regional distribution according to subtype of spinocerebellar ataxia: A study of 1,286 Japanese patients

Expansions of trinucleotide repeats have been discovered in spinocerebellar ataxia (SCA) types 1, 2, 6, 7, 12, and 17, Machado‐Joseph disease (MJD/SCA3), and dentatorubropallidoluysian atrophy (DRPLA). However, the frequency of familial SCA in Japan remains unclear. The number of trinucleotide repeats was determined for 1,286 patients. Three hundred and thirty families (523 cases) were autosomal dominant group (A), and 165 families were positive for family history but not autosomal dominant group (B), while the remaining 598 cases were the sporadic group (C). The frequency of SCA subtypes in autosomal dominant group was: 1) 5.5% for SCA1; 2) 2.4% for SCA2; 3) 27.6% for MJD/SCA3; 4) 25.5% for SCA6; 5) 0.3% for SCA17; and 6) 7.3% for DRPLA. Abnormal expansion of SCA12 was not detected. Another 31.5% of the patients in the autosomal dominant group had unknown genetic abnormalities. Within group B, SCA6 was the most prominent and within the sporadic group MJD/SCA3 and SCA6 were the most common subtypes observed. The disease‐free survival curve of SCA6 was different from that of other SCAs and the mean age at onset for SCA6 was found to be later than that of the other types. Regional differences were observed in the relative rate of SCA subtypes. MJD/SCA3 appears more common in the Kanto and Kyushu districts of Japan, whereas SCA6 is most common in the Chugoku district. In order to establish an effective social welfare system for SCA patients, clinical course and regional differences in the prevalence of SCA subtypes must be taken into consideration. © 2002 Wiley‐Liss, Inc.     

Difference in disease-free survival curve and regional distribution according to subtype of spinocerebellar ataxia: a study of 1,286 Japanese patients

Expansions of trinucleotide repeats have been discovered in spinocerebellar ataxia (SCA) types 1, 2, 6, 7, 12, and 17, Machado-Joseph disease (MJD/SCA3), and dentatorubropallidoluysian atrophy (DRPLA). However, the frequency of familial SCA in Japan remains unclear. The number of trinucleotide repeats was determined for 1,286 patients. Three hundred and thirty families (523 cases) were autosomal dominant group (A), and 165 families were positive for family history but not autosomal dominant group (B), while the remaining 598 cases were the sporadic group (C). The frequency of SCA subtypes in autosomal dominant group was: 1) 5.5% for SCA1; 2) 2.4% for SCA2; 3) 27.6% for MJD/SCA3; 4) 25.5% for SCA6; 5) 0.3% for SCA17; and 6) 7.3% for DRPLA. Abnormal expansion of SCA12 was not detected. Another 31.5% of the patients in the autosomal dominant group had unknown genetic abnormalities. Within group B, SCA6 was the most prominent and within the sporadic group MJD/SCA3 and SCA6 were the most common subtypes observed. The disease-free survival curve of SCA6 was different from that of other SCAs and the mean age at onset for SCA6 was found to be later than that of the other types. Regional differences were observed in the relative rate of SCA subtypes. MJD/SCA3 appears more common in the Kanto and Kyushu districts of Japan, whereas SCA6 is most common in the Chugoku district. In order to establish an effective social welfare system for SCA patients, clinical course and regional differences in the prevalence of SCA subtypes must be taken into consideration.     

Uncloned expanded CAG/CTG repeat sequences in autosomal dominant cerebellar ataxia (ADCA) detected by the repeat expansion detection (RED) method.

In some neurodegenerative diseases, genetic anticipation correlates with expansions of the CAG/CTG repeat sequence above the normal range through the generations of a pedigree. Among these neurodegenerative diseases are late onset autosomal dominant cerebellar ataxias (ADCA). ADCA are genetically heterogeneous disorders with different cloned genes for spinocerebellar ataxia type 1 (SCA1), type 2 (SCA2), type 3 or Machado-Joseph disease (SCA3/MJD), and type 6 (SCA6). Another related dominant ataxia, dentatorubral-pallidoluysian atrophy (DRPLA), also shows CAG/CTG repeat expansions. Genetic anticipation has been reported for all of them except for the recently cloned SCA6 gene. Other, as yet undetected SCA genes may show the same features. We have used the repeat expansion detection (RED) method to detect repeat expansions directly in DNA samples from ADCA patients not resulting from known genes. Our sample consists of 19 affected index cases, corresponding to 52.8% of our ADCA families without CAG/CTG repeat expansions in the SCA1, SCA2, SCA3/MJD, SCA6, or DRPLA genes. Eighty-nine percent of the index cases had expansions of a CAG/CTG sequence greater than 40 repeats by RED, while these were observed in only 26.9% of 78 healthy subjects from the general population (p < 0.0001). The distribution of RED fragments in controls and ADCA patients also shows significant differences with the Mann-Whitney U test (U = 376.5, p = 0.0007). Moreover, there was a significant inverse correlation between the size of expansion and the age of onset (r = -0.54, p = 0.018). These results show CAG/CTG repeat expansions of over 40 repeats in our sample of ADCA families not resulting from known SCA genes.     

Frequency analysis of autosomal dominant cerebellar ataxias in Japanese patients and clinical characterization of spinocerebellar ataxia type 6

Using a molecular diagnostic approach, we investigated 101 kindreds with autosomal dominant cerebellar ataxias (ADCAs) from the central Honshu island of Japan, including spinocerebellar ataxia type 1 (SCA1), spinocerebellar ataxia type 2 (SCA2), Machado–Joseph disease (MJD), dentatorubral and pallidoluysian atrophy (DRPLA) and spinocerebellar ataxia type 6 (SCA6). In our unselected series, MJD was the most common type of ADCA, accounting for 33.7% followed by DRPLA (19.8%), SCA2 (5.9%) and SCA6 (5.9%). No SCA1 mutations were identified. We analysed the clinical features of six molecular confirmed SCA6 kindreds: in each family, there was an expanded allele in the α1A-voltage dependent calcium channel comprising between 23 and 25 CAG repeats. The mean age at onset of symptoms was 43±13 years. The clinical features consisted predominantly of cerebellar ataxia, dysarthria and horizontal nystagmus, which was generally consistent with ADCA type 3. However several new clinical features were found in some patients: dramatic anticipation, rapid disease progression, severe ataxia associated with action tremor or action myoclonus, and very early onset, which are not described as the classical features of ADCA type 3.     

Screening for proteins with polyglutamine expansions in autosomal dominant cerebellar ataxias

Expansion of trinucleotide CAG repeats coding for polyglutamine has been implicated in five neurodegenerative disorders, including spinocerebellar ataxia (SCA) 1 and SCA3 or Machado-Joseph disease (SCA3/MJD), two forms of type I autosomal dominant cerebellar ataxias (ADCA). Using the 1C2 antibody which specifically recognizes large polyglutamine tracts, particularly those that are expanded, we recently reported the detection of proteins with pathological glutamine expansions in lymphoblasts from another form of ADCA type I, SCA2, as well as from patients presenting with the distinct phenotype of ADCA type II. We now have screened a large series of patients with ADCA or isolated cases with cerebellar ataxia, for the presence of proteins with polyglutamine expansions. A 150 kDa SCA2 protein was detected in 16 out of 40 families with ADCA type I. This corresponds to 24% of all ADCA type I families, which is much more frequent than SCA1 in this series of patients (13%). The signal intensity of the SCA2 protein was negatively correlated to age at onset, as expected for an expanded and unstable trinucleotide repeat mutation. The disease segregated with markers closely linked to the SCA2 locus in all identified SCA2 families. In addition, a specific 130 kDa protein, which segregated with the disease, was detected in lymphoblasts of patients from nine families with ADCA type II. It was also visualized in the cerebral cortex of one of the patients, demonstrating its translation in the nervous system. Finally, no new disease-related proteins containing expanded polyglutamine tracts could be detected in lymphoblasts from the remaining patients with ADCA or isolated cases with cerebellar ataxia.      

Evidence for a common Spinocerebellar ataxia type 7 (SCA7) founder mutation in Scandinavia

Spinocerebellar ataxia type 7 (SCA7) is a neuro-degenerative disorder characterised by progressive cerebellar ataxia and macular degeneration. SCA7 is one of the least common genetically verified autosomal dominant cerebellar ataxias (ADCAs) in the world (4.5 to 11.6%), but in Sweden and Finland SCA7 is the most commonly identified form of ADCA. In an inventory of hereditary ataxias in Scandinavia (Sweden, Norway, Denmark and Finland) we identified 15 SCA7 families, eight in Sweden and seven in Finland, while no cases of SCA7 could be found in Norway or Denmark. We examined whether the relatively high frequency of SCA7 families in Sweden and Finland was the result of a common founder effect. Only two out of 15 families could be connected genealogically. However, an extensive haplotype analysis over a 10.2 cM region surrounding the SCA7 gene locus showed that all 15 families studied shared a common haplotype over at least 1.9 cM. This strongly suggests that all Scandinavian SCA7 families originate from a common founder pre-mutation.     

Autosomal dominant cerebellar ataxias in the Kinki area of Japan

Summary The autosomal dominant cerebellar ataxias are a heterogeneous group of neurodegenerative disorders characterized by slowly progressive cerebellar ataxia. Recently, among the ataxias, spinocerebellar ataxia type 1 (SCA1), Machado-Joseph disease (MJD) and dentatorubral-pallidoluysian atrophy have been found to be caused by expansion of a CAG trinucleotide repeat in the coding region of the disease genes. We have analyzed the CAG repeats of 67 patients from 47 families with dominantly inherited ataxia who lived in the Kinki area of Japan. The following results were obtained. First, 31 patients from 22 families were found to be positive for the MJD repeat expansion, indicating that MJD is the most common dominantly inherited ataxia in the Kinki area of Japan. Second, no SCA1 repeat expansion was found among the families studied. This presents a striking contrast to the fact that there are many families with SCA1 in Hokkaido and the Tohoku area of Japan. These findings suggest geographic variation in autosomal dominant cerebellar ataxias in Japan.     

Haplotype study in Dutch SCA3 and SCA6 families: evidence for common founder mutations

This pilot study was initiated to show the existence of founder effects in the Dutch autosomal dominant cerebellar ataxia (ADCA) population. The ADCAs comprise a clinically heterogeneous group of neurodegenerative disorders and the estimated prevalence in the Netherlands is approximately 3:100 000 individuals. Here, we focused on the SCA3 and SCA6 genes because mutations in these genes occur most frequently in the Netherlands. We were able to determine a common origin of the CAG repeat expansions in the majority of Dutch SCA3 and SCA6 families. Haplotype analysis and linkage disequilibrium studies with polymorphic markers revealed shared haplotypes surrounding the SCA3 and SCA6 genes. These results strongly suggest that ADCA families can be traced back to common ancestors in particular parts of the Netherlands.     

SCA2 is not a major locus for ADCA type I in French families

Autosomal dominant cerebellar ataxias (ADCA) of type I, a group of clinically heterogeneous neurodegenerative disorders, are known to be genetically heterogeneous since a second locus for ADCA type I (SCA2) has been identified on the long arm of chromosome 12. Linkage analysis was performed in 7 French ADCA type I families in order to estimate its frequency. We analysed 121 individuals, 39 of whom were affected. In 6 families, the SCA2 candidate interval, spanning 12.8 cM, was excluded by bi- and multipoint analysis. In one family (SAL-315), however, the maximal positive lod score reached 2.03 at the D12S79 locus. A posterior probability of 94% in favor of linkage to SCA2 was calculated by homogeneity analysis. The clinical profile of this family was similar to that of previously described SCA1 and non-SCA1 families, except that dementia was observed in 2 out of 6 patients. This may be a clinical idiosyncrasy in this family and was insufficient for a genotype-phenotype correlation. © 1995 Wiley-Liss, Inc.     

中国大陆汉族人群SCA各亚型的突变频率分析及SCA6的临床和分子特征

目的评价中国大陆汉族人群常染色体显性遗传脊髓小脑型共济失调(spinocerebellar ataxla．SCA)各亚型包括SCA1、SCA2、SCA3／Machado-Joseph病(Machado—Joseph disease,MJD)、SCA6、SCA7、SCAB、SCA10、SCA12、SCA14、SCA17和齿状核红核苍白球路易氏体萎缩症(dentatorubro—pallidoluysian atrophy，DRPLA)的突变频率，并总结SCA6的临床和分子特征。方法对中国大陆120个常染色体显性遗传SCA家系和60例散发性SCA患者进行突变分析，并总结了4个SCA6家系13例患者的临床和分子特征。结果SCA3／MJD是中国大陆汉族人群中最常见的SCA亚型，共发现59个家系83例患者(阳性率49．2％)．其次还发现8个SCA2家系(6．7％)、7个SCA1家系(5．8％)、4个SCA6家系(3．3％)、1个SCA7家系(0．8％)，未发现SCA8、SCA10、SCA12、SCA14、SCA17和DRPLA家系。有41个SCA家系(34．2％)不能进行基因分型。在60例散发性SCA患者中，有3例为SCA3基因突变，未发现有SCA6基因突变。4个SCA6家系有明显的遗传早现，但在代间传递过程中无遗传不稳定现象。结论首次在中国大陆汉族人群报道了SCA6亚型的突变频率。     

Analysis of SCA1, DRPLA,MJD, SCA2, and SCA6 CAG repeats in 48 portuguese ataxia families

The spinocerebellar ataxias (SCAs) are clinically and genetically a heterogeneous group of neurodegenerative disorders. To date, eight different loci causing SCA have been identified: SCA1, SCA2, Machado-Joseph disease (MJD)/SCA3, SCA4, SCA5, SCA6, SCA7, and dentatorubropallidoluysian atrophy (DRPLA). Expansion of a CAG repeat in the disease genes has been found in five of these disorders. To estimate the relative frequencies of the SCA1, DRPLA, MJD, SCA2, and SCA6 mutations among Portuguese ataxia patients, we collected DNA samples from 48 ataxia families and performed polymerase chain reaction (PCR) amplification of the CAG repeat mutations on chromosomes 6p, 12p, 14q, 12q, and 19p, respectively. Fifty-five individuals belonging to 34 dominant families (74%) had an expanded CAG repeat at the MJD gene. In five individuals from two kindreds with a dominant pattern of inheritance (4%), an expanded CAG repeat at the SCA2 gene was found. In MJD patients, the normal allele size ranged from 13 to 41, whereas the mutant alleles contained 65 to 80 repeats. For the SCA2 patients, normal alleles had 22 or 23, while expanded alleles had between 36 and 47 CAG units. We did not find the SCA1, DRPLA, or SCA6 mutations in our group of families. The MJD mutation remains the most common cause of SCA in Portugal, while a small number of cases are caused by mutations at the SCA2 gene, and 22% are due to still unidentified genes. Am. J. Med. Genet. (Neuropsychiatr. Genet.) 81:134–138, 1998. © 1998 Wiley-Liss, Inc.     

Physical map and haplotype analysis of 16q-linked autosomal dominant cerebellar ataxia (ADCA) type III in Japan

 Autosomal dominant cerebellar ataxia (ADCA) is a group of heterogeneous neurodegenerative disorders. We previously mapped a gene locus for ADCA with pure cerebellar syndrome (ADCA type III) to a 3-cM region in chromosome 16q, and found a common haplotype among affected individuals. This region was exactly within the locus for another ADCA, spinocerebellar ataxia type 4 (SCA4). To identify the gene causing 16q-linked ADCA type III, we constructed a contig with 38 bacterial artificial chromosome clones between D16S3043 and D16S3095. The size of this contig was estimated to be 4.8 Mb. We found more than 500 nucleotide tandem repeats, including 9 CAG/CTG repeats in this candidate region, although none of the 94 tandem repeats analyzed were expanded in affected individuals. However, we found 11 new polymorphic markers, giving 22 markers spanning the candidate region. By typing these markers on eight Japanese families with ADCA type III, including two new families, we found that a common “founder” haplotype is seen in a more restricted 3.8-Mb region, spanning markers GGAA05 and D16S3095. We present here a newly refined critical interval of 16q-ADCA type III/SCA4. Data of 11 new DNA markers on 16q22.1 would also be useful for other research of genes mapped to this region. Received: June 25, 2002 / Accepted: November 22, 2002 Correspondence to:H. Mizusawa     

Trinucleotide expansion within the MJD1 gene presents clinically as spinocerebellar ataxia and occurs most frequently in German SCA patients

Autosomal dominant spinocerebellar ataxia (SCA) is a clinicallyand genetically heterogeneous neurodegenerative disorder whichleads to progressive cerebellar ataxia. A gene responsible forSCA type 3 has been mapped to human chromosome 14q, close tothe Machado-Joseph disease (MJD) locus. The MJD1 gene has recentlybeen cloned and the disease causing mutation has been identifiedas an unstable and expanded (CAG)_n trinucleotide repeat. Assome clinical features of MJD overlap with those of SCA we investigatedthe MJD mutation in 38 German families with dominantly inheritedSCA. The MJD1 (CAG)_n expansion was identified in 19 families.In contrast, the trinucleotide expansion was not observed in21 ataxia patients without family history of the disease. Analysisof the (CAG)_n repeat length in 30 patients revealed an inversecorrelation with the age of onset. The (CAG)_n stretch of theaffected allele varied between 67 and 78 trinucleotide units,the normal alleles carried between 12 and 28 simple repeats.These results demonstrate that the MJD mutation causes the diseasephenotype of most SCA patients in Germany.     

A linkage disequilibrium at the candidate gene locus for 16q-linked autosomal dominant cerebellar ataxia type III in Japan

We previously mapped the gene responsible for autosomal dominant cerebellar ataxia (ADCA) type III to a 10.9-cM interval between D16S3089 and D16S515 on chromosome 16q. This region, however, was identical to the candidate locus of spinocerebellar ataxia type 4 (SCA4). In this study, we extended our research to refine the gene locus of the disease by applying linkage disequilibrium with 20 microsatellite DNA markers. With 9 markers flanked by D16S3031 and D16S3107, we found that the affected individuals in six families had a common haplotype on their disease chromosomes. Furthermore, linkage disequilibrium was demonstrated with 5 informative markers: D16S3019 (P = 0.013), D16S3067 (P = 0.008), D16S3141 (P = 0.011), D16S496 (P = 0.032), and D16S3107 (P = 0.000). These results indicate that the disease could have originated from a common ancestor harboring a mutation within a less than 3-cM region between D16S3043 and D16S3095. The founder alleles were also observed in other patients with ADCA type III unrelated to the six families. Received: October 25, 2000 / Accepted: January 5, 2001     

遗传性脊髓小脑型共济失调的CAG三核苷酸突变检测

目的 评价ＳＣＡ１、ＳＣＡ２、ＳＣＡ３／ＭｊＤ、ＳＣＡ６、ＳＣＡ７和ＤＲＰＬＡ的ＣＡＧ三核苷酸异常扩增突变「（ＣＡＧ）ｎ」,在中国人遗传性脊髓小脑型共济失调（ｓｐｉｎｏｃｅｒｅｂｅｌｌａｒ ａｔａｘｉａ,ＳＣＡ）患者的分布频率。方法 经聚合酶链反应、变性聚丙烯酰按凝胶电泳和银染显带技术,检测分析了８５个中国人常染色体显性遗传ＳＣＡ家系（其中患者１６７例）和３７例散发ＳＣＡ患者的ＳＣＡ１、ＳＣＡ２、     

Machado Joseph disease maps to the same region of chromosome 14 as the spinocerebellar ataxia type 3 locus.

Machado Joseph disease (MJD) is an autosomal dominantly inherited neuro-degenerative disorder primarily affecting the motor system. It can be divided into three phenotypes based on the variable combination of a range of clinical symptoms including pyramidal and extra-pyramidal features, cerebellar deficits, and distal muscle atrophy. MJD is thought to be caused by mutation of a single gene which has recently been mapped, using genetic linkage analysis, to a 29 cM region on chromosome 14q24.3-q32 in five Japanese families. A second disorder, spinocerebellar ataxia type 3 (SCA3), which has clinical symptoms similar to MJD, has also been linked to the same region of chromosome 14q in two French families. In order to narrow down the region of chromosome 14 which contains the MJD locus and to determine if this region overlaps with the predisposing locus for SCA3, we have performed genetic linkage analysis in seven MJD families, six of Portuguese/Azorean origin and one of Brazilian origin, using nine microsatellite markers mapped to 14q24.3-q32. Our results localise the MJD locus in these families to an 11 cM interval flanked by the markers D14S68 and AFM343vf1. In addition we show that this 11 cM interval maps within the 15 cM interval containing the SCA3 locus, suggesting that these diseases are allelic.     

常染色体显性小脑性共济失调致病基因动态突变位点三核苷酸重复变异的研究

目的 探讨毛细管电泳技术在动态突变位点检测中的技术问题,并分析常染色体显性小脑性共济失调(autosomal dominant cerebellar ataxias,ADCA)患者与正常对照人群脊髓小脑性共济失调(spinocerebellar ataxia,SCA)1,2,3,6,7亚型的致病基因动态突变位点三核苷酸重复数的分布范围,以期为今后标准化ADCA基因检测技术及中国人群制定相关基因动态突变量化标准提供依据.方法 以263个ADCA家系的先证者及261个无亲缘关系的正常对照为对象,应用荧光PCR-毛细管电泳及DNA测序技术进行上述SCA致病基因内动态突变位点基因分型,统计分析不同对照下各基因动态突变位点毛细管电泳检测重复数与DNA测序结果的差异,以及各基因三核苷酸重复特点及重复次数分布范围.结果 以DNA测序所确定的重复次数为标准,SCA各致病基因动态突变位点的PCR产物在毛细管电泳中,迁移率均大于GC含量相对均衡的分子量内标片段,其中SCA2、6、7亚型基因位点尤为明显.以各基因已知CAG重复数片段为外标计算受检标本CAG重复数,可将误差缩小至±1个拷贝.在各基因CAG正常重复范围内,PCR产物毛细管电泳迁移率主要与CAG拷贝数相关,而与CAG拷贝数变异所致PCR产物GC含量变化的关系不明显.在263个ADCA家系中,发现SCA1家系6个(2.28%),SCA2家系8个(3.04%),SCA3家系81个(30.80%),未发现SCA6和SCA7家系.排除上述突变基因后,正常等位基因重复次数变异范围在SCA1为17～36次,杂合率为76.1%,SCA2为13～30次,杂合率为17.7%,SCA3为14～39次,杂合率为74.4%,SCA6为6～16次,杂合率为72.1%,SCA7为6～13次,杂合率为41.3%.突变等位基因重复次数变化范围在SCA1为49～56次,SCA2为36～41次,SCA3为59～81次.未发现单一位点纯合突变或两位点双重杂合突变患者.结论 通过设置有限数量的已知拷贝数对照,进行荧光PCR-毛细管电泳检测,可以准确地计算出SCA致病基因动态突变位点CAG重复次数.本研究结果支持中国人群中SCA3致病基因突变是导致ADCA的最常见病因.SCA1,2,3,6,7亚型致病基因正常与突变的CAG重复数资料可为中国人ADCA动态突变量化标准的建立提供参考.