Prevalence and Clinical Characteristics of Fabry Disease in Chinese Patients With Hypertrophic Cardiomyopathy.

BACKGROUND: The prevalence of Fabry disease (FD) in Chinese patients with hypertrophic cardiomyopathy (HCM) is unclear. We aimed to evaluate the prevalence, clinical characteristics, and outcomes of FD in Chinese patients with HCM. METHODS: Of 217 patients with HCM, FD probands were screened by next-generation sequencing at Fuwai Hospital. Medical data from α-galactosidase A activity, electrocardiography, echocardiography, coronary angiography, cardiac magnetic resonance, pathological examination, and follow up was analyzed. RESULTS: Two FD probands were observed (0.93% of patients with HCM), both of which were diagnosed with symptomatic obstructive HCM at 49 years of age. One proband had a GLA mutation (c.887T>C [p.M296T]) with a late-onset cardiac variant, which was characterized by dual ventricular hypertrophy and conduction disease with a permanent pacemaker. The other patient had a GLA mutation (c.758T>C [p.I253T]) with a classic phenotype and dual ventricular hypertrophy, atrioventricular block, renal failure, and recurrent cerebral infarction. Both probands had late gadolinium enhancement mainly in the basal segment of the inferolateral wall. Follow up revealed no exertional symptoms or outflow obstruction after surgical septal myectomy in the two probands, and stable renal function was observed after 6 months of migalastat therapy in the later one. A family study revealed six female carriers and three sudden cardiac deaths. CONCLUSIONS: FD is not uncommon in Chinese patients with HCM. Multiple organic involvement, dual ventricular hypertrophy, and conduction disease provide clinical clues for suspected FD, and early genetic screening is necessary. Surgical septal myectomy and migalastat improve the long-term prognosis of patients with FD.

Restrictive Cardiomyopathy Resulting from a Troponin I Type 3 Mutation in a Chinese Family.

Objective To identify the pathogenic variant responsible for restrictive cardiomyopathy (RCM) in a Chinese family.Methods Next generation sequencing was used for detecting the mutation and Results verified by sequencing. We used restriction enzyme digestion to test the mutation in the family members and 200 unrelated normal subjects without any cardiac inherited diseases when the mutation was identified.Results Five individuals died from cardiac diseases, two of whom suffered from sudden cardiac death. Two individuals have suffered from chronic cardiac disorders. Mutation analysis revealed a novel missense mutation in exon 7 of troponin I type 3 (TNNI3), resulting in substitution of serine (S) with proline (P) at amino acid position 150, which cosegregated with the disease in the family, which is predicted to be probably damaging using PolyPhen-2. The mutation was not detected in the 200 unrelated subjects we tested.Conclusion Using next generation sequencing, which has very recently been shown to be successful in identifying novel causative mutations of rare Mendelian disorders, we found a novel mutation of TNNI3 in a Chinese family with RCM.

[Diagnosis of glycogen storage disease type IIIA by detecting glycogen debranching enzyme activity, glycogen content and structure in muscle].

OBJECTIVE: Glycogen storage disease type III (GSD III) is an autosomal recessive disease caused by glycogen debranching enzyme (GDE) gene (AGL gene) mutation resulting in hepatomegaly, hypoglycemia, short stature and hyperlipidemia. GSD IIIA, involves both liver and muscle, and accounts for up to 80% of GSD III. The definitive diagnosis depends on either mutation analysis or liver and muscle glycogen debranching enzyme activity tests. This study aimed to establish enzymologic diagnostic method for GSD IIIA firstly in China by detecting muscular GDE activity, glycogen content and structure and to determine the normal range of muscular GDE activity, glycogen content and structure in Chinese children. METHOD: Muscle samples were collected from normal controls (male 15, female 20; 12-78 years old), molecularly confirmed GSD III A patients (male 8, female 4, 2-27 years old) and other myopathy patients (male 9, 2-19 years old). Glycogen in the muscle homogenate was degraded into glucose by amyloglucosidase and phosphorylase respectively. The glycogen content and structure were identified by glucose yield determination. The debranching enzyme activity was determined using limit dextrin as substrate. Independent samples Kruskal-Wallis H test, Nemenyi-Wilcoxson-Wilcox test, and Chi-square test were used for statistical analyses by SPSS 11.5. RESULT: (1) GSD III A patients' glycogen content were higher, but G1P/G ratio and GDE activity were lower than those of the other two groups (P < 0.01). In all of the three parameters, there were no significant difference between normal controls and other myopathy patients. (2) The range of normal values: glycogen content 0.31%-0.43%, G1P/G ratio 22.37%- 26.43%, GDE activity 0.234-0.284 micromol/(g. min). (3) Enzymologic diagnostic method had a power similar to that of gene analysis in diagnosis of GSD-IIIA patients. The sensitivity and specificity of enzymologic diagnostic method and mutation detection were 91.7% and 100% respectively. CONCLUSION: Enzymologic diagnostic method of GSD IIIA was firstly established in China. The range of normal values was determined. This method could be used in diagnosing suspected GSD IIIA patients in the clinic.

[Identification of a novel TP53 germline mutation in one child with adrenocortical carcinoma].

OBJECTIVE: To detect the germline TP53 gene mutation in a child with pediatric adrenocortical carcinoma (ADCC) in order to provide genetic diagnosis and counseling. METHODS: Genomic DNA was extracted from peripheral blood from a girl with ADCC and her parents. All TP53 exons and their flanking intronic sequences were PCR-amplified and subjected to automatic DNA sequencing. RESULTS: Direct sequencing of PCR products revealed a heterozygous G insertion between nucleotide 522 and 523 (c.522-523insG) in TP53 exon 5. This novel mutation is predicted to result in a frame shift at codon 175, producing a new reading frame ending in a stop at position 6 (p.R175AfsX6). The same heterozygous mutation was also found in her father, but not in her mother. CONCLUSION: A novel germline mutation in the TP53 gene has been identified in one case with pediatric ADCC.