目的研究黏多糖贮积症ⅣA型(mucopolysaccharidosis type ⅣA,MPSⅣA)患者发病的分子遗传学机制,揭示其基因型与表现型的相互关系,为产前基因诊断等创造必要的前提条件。方法采用尿糖胺聚糖(glycosaminoglycans,GAGs)定性检测法对疑似MPSIVA型的先证者进行初诊,然后采用PCR及扩增产物直接测序法对先证者及其家庭成员进行突变检测。在检出GALNS基因c.1567T〉G新突变后,先后建立XspI酶切鉴定法和扩增阻碍突变系统(amplification refractory mutation system,ARMS)快速特异鉴定法,对随机采集的110名正常对照与先证者及其家庭成员的GALNS基因第14外显子进行序列分析,同时采用生物信息学方法对蛋白质二级、三级结构进行预测,以及直接测定患儿GALNS酶活性的方法,对该新突变进行致病性鉴定。结果先证者尿检呈弱阳性GAGs(±),其GALNS基因第14外显子内存在杂合的c.1567T〉G终止密码突变,第4外显子存在杂合的c.374C〉T错义突变,为两种突变的复合杂合子。其妹突变类型与先证者完全相同,其母仅在第14外显子存在杂合的终止密码突变,为该病的携带者,其父仅在第4外显子存在杂合的错义突变,也为杂合子;第14外显子的PCR产物经XspI酶切后,正常对照组切出28bp、120bp、399bp3条带,而患者和携带者的母亲均切出28bp、120bp、148bp和399bp4条带;用ARMS特异引物扩增后,正常对照组均扩增阴性,而患者及携带者均扩增阳性;蛋白质二级、三级结构预测结果显示:c .1567T〉G变异导致终止密码(TAG)突变为谷氨酸(GAG),使多肽链延长了92个氨基酸残基,导致蛋白质二、三级结构发生明显改变,而正常对照无此变化。酶活性测定的结果显示:患者的GALNS酶活性仅为8.3nmol/17h/mgpr,明显低于正常值(正常参考值为41.9~92.1nmol/17h,/mgpr)。结论c.1567T?
Objective To study the molecular genetic mechanism of mucopolysaccharidosis type ⅣA (MPS ⅣA), and reveal the relationship between the genotype and phenotype, and provide a basis for prenatal gene diagnosis in the future. Methods A preliminary diagnosis was made by qualitative detection of urinary glycosaminoglycans of the suspected MPS ⅣA proband. Then, mutation detection was performed on the proband and her family members with PCR and direct sequencing of the PCR products. After a novel c. 1567T〉G mutation was deteeted,Xsp I restriction enzyme digestion and amplification refractory mutation system(ARMS) fast specific identification were established to analyze the sequences of exon 14 in GALNS gene, including 110 randomly selected healthy controls, the proband and other pedigree members. At the same time, bioinformatic approaches for protein secondary, tertiary structure prediction were applied to identify the novel pathologic mutation. Results The proband's urine GAGs test was a weak positive(±), and a c. 1567T〉G heterozygous termination codon mutation in exon 14 and a c. 374C〉T heterozygous missense mutation in exon 4 were found. The proband was compound heterozygous of the two mutations, so was her younger sister. Her mother was a carrier with only a c. 1567T〉G heterozygous mutation in exon 14. Her father had a heterozygous mutation of c. 374C〉T in exon 4. After Xsp I restriction enzyme digestion, healthy controls had three bands including 28 bp, 120 bp and 399 hp, while the proband and her mother had four bands consisting of 28 bp, 120 bp,148 bp and 399 bp. For amplification by ARMS specific primers, it was negative for the controls, while it was positive for the proband and the carrier. The results of protein secondary and tertiary structure prediction showed that the c. 1567T~G mutation located in the stop codon, resulted in stop codon (TAG) changing to glutamic acid (GAG), with the peptide chain extending 92 amino acid residues, and secondary and tertiary protein stru