Identification of a novel mutation of GALNS gene from a Chinese pedigree with mucopolysaccharidosis type IV A.
- Author:
Yan ZHAO
1
;
Ya-xian MENG
;
Yi-bin GUO
;
Min-lian DU
;
Yang AI
Author Information
- Publication Type:Journal Article
- MeSH: Amino Acid Sequence; Asian Continental Ancestry Group; genetics; Base Sequence; Child; Chondroitinsulfatases; chemistry; genetics; metabolism; Female; Genotype; Humans; Infant; Molecular Sequence Data; Mucopolysaccharidosis IV; enzymology; genetics; Mutation; genetics; Pedigree; Protein Conformation; Sequence Alignment
- From: Chinese Journal of Medical Genetics 2011;28(3):241-246
- CountryChina
- Language:Chinese
-
Abstract:
OBJECTIVETo study the molecular genetic mechanism of mucopolysaccharidosis type IV A(MPS IV A), and reveal the relationship between the genotype and phenotype, and provide a basis for prenatal gene diagnosis in the future.
METHODSA preliminary diagnosis was made by qualitative detection of urinary glycosaminoglycans of the suspected MPS IV A 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 to G mutation was detected, 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.
RESULTSThe proband's urine GAGs test was a weak positive(± ), and a c.1567T to G heterozygous termination codon mutation in exon 14 and a c.374C to 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 to G heterozygous mutation in exon 14. Her father had a heterozygous mutation of c.374C to T in exon 4. After Xsp I restriction enzyme digestion, healthy controls had three bands including 28 bp, 120 bp and 399 bp, 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 to 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 structure change, which were not found in the controls. The result of enzyme assay showed that the activity of GALNS enzyme in the affected child was 8.3 nmol/17h/mg pr, which was obviously lower than the normal value (the normal range is 41.9-92.1 nmol/17h/mg pr).
CONCLUSIONThese results illustrate that the c.1567 T to G is a novel pathologic mutation, which is the main cause of the disease in this family.