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Start Over Author "CHUANZHU YAN" Journal neurological sciences
8 results on '"CHUANZHU YAN"'

3. Clinical, pathological, and molecular genetic analysis of 7 Chinese patients with hereditary myopathy with early respiratory failure

Author

Ling Xu, Chuanzhu Yan, Bing Zhao, Tingjun Dai, Dandan Zhao, Pengfei Lin, Xiaoqing Lv, and Wei Jiang

Subjects
Pathology, medicine.medical_specialty, Dermatology, Sarcomere, Exon, Muscular Diseases, Genotype, medicine, Humans, Muscle, Skeletal, Myopathy, Molecular Biology, Pathological, Allele frequency, Retrospective Studies, biology, business.industry, Genetic Diseases, Inborn, General Medicine, Psychiatry and Mental health, Mutation, biology.protein, Immunohistochemistry, Titin, Neurology (clinical), medicine.symptom, Respiratory Insufficiency, business
Abstract

Hereditary myopathy with early respiratory failure (HMERF) is a subtype of myofibrillar myopathy. Mutations located on exon 344 of the titin-A band, the 119th fibronectin-3 domain (FN3 119), are responsible for HMERF. In this article, we retrospectively analyzed the clinical features, findings of muscle imaging, muscle pathology, immunohistochemistry, and ultrastructural characteristics of seven patients diagnosed with HMERF at a single center in China. Muscle MRI showed the involvement of semitendinosus in four patients. The common pathological features were variability in fiber diameter, increased internal nuclei, endomysial fibrosis, and cytoplasmic bodies. On immunohistochemical examination, the cytoplasmic bodies stained positive for calpain-3, p53, and programmed death-ligand 1. Electron microscopy showed cytoplasmic bodies, distorted sarcomere architecture, glycogen pool, and subsarcolemmal accumulation of mitochondria and lysosomes. We retrospectively reviewed four reported HMERF patients in China. Among the 11 patients, the median age at onset was 34 years (range 14–54). Allelic frequency of mutation c.95195C > T was 36.36%. This study characterizes the phenotype and genotype spectrum of HMERF in China.

Published
2021

4. Leber hereditary optic neuropathy and dystonia overlapping mitochondrial encephalomyopathy with lactic acidosis and stroke-like episodes due to m.14459G>A mutation

Author

Kunqian Ji, Wei Wang, Jian-Qiang Lu, Xuebi Xu, Yan Lin, Chuanzhu Yan, Ying Li, Xiaolin Yu, and Yuying Zhao

Subjects
Mitochondrial encephalomyopathy, Proband, Dystonia, congenital, hereditary, and neonatal diseases and abnormalities, Mitochondrial DNA, Pathology, medicine.medical_specialty, Muscle biopsy, medicine.diagnostic_test, business.industry, Respiratory chain, Dermatology, General Medicine, medicine.disease, Heteroplasmy, 03 medical and health sciences, Psychiatry and Mental health, 0302 clinical medicine, Lactic acidosis, Medicine, 030212 general & internal medicine, Neurology (clinical), business, 030217 neurology & neurosurgery
Abstract

To report a Chinese family with combined m.14459G>A mutation and m.6064A>T mutation of which the female proband presenting unique Leber hereditary optic neuropathy and dystonia (LDYT) overlapping mitochondrial encephalomyopathy with lactic acidosis and stroke-like episodes (MELAS) phenotype. Clinical information of the pedigree was collected. We performed muscle biopsy and whole-length mitochondrial DNA (mtDNA) sequencing on the proband. The activity of respiratory chain complexes in immortalized lymphoblasts was determined. The current 23-year-old proband suffered from vision decline at age 15 and developed seizures and dystonia with bilateral lesions in precentral gyri at age 18. When she was 21, the lesions in bilateral putamen were found with elevated cerebrospinal fluid lactate. Her mother had optic atrophy; one of her brother died at age 4 with respiratory distress; and the other 8-year-old brother was asymptomatic. Muscle biopsy of the proband was unremarkable. The mtDNA sequencing revealed a heteroplasmic m.14459G>A mutation and a previously unreported m.6064A>T mutation. The respiratory chain complex I activity in the proband’s immortalized lymphoblasts was 50% less than the normal control; while there was no statistical difference between the proband and the normal control in the activity of complex IV. We presented the first case exhibiting LDYT and MELAS phenotype with m.14459G>A mutation, and the decreased complex I activity contributed to the pathogenicity. Our study expanded the clinical spectrum of m.14459G>A mutation.

Published
2021

5. DNM2 mutations in Chinese Han patients with centronuclear myopathy

Author

Huamin Wu, Xinhong Liu, Pengfei Lin, Dandan Zhao, Chuanzhu Yan, Yaoqin Gong, and Tingjun Dai

Subjects
Adult, Male, 0301 basic medicine, Genotype, DNA Mutational Analysis, Dermatology, 030105 genetics & heredity, Gene mutation, medicine.disease_cause, Severity of Illness Index, Dynamin II, Young Adult, 03 medical and health sciences, symbols.namesake, 0302 clinical medicine, Asian People, Humans, Medicine, Genetic Predisposition to Disease, Centronuclear myopathy, Child, Gene, Genetics, Sanger sequencing, Mutation, business.industry, Genetic heterogeneity, General Medicine, Middle Aged, medicine.disease, Congenital myopathy, Psychiatry and Mental health, DNM2, symbols, Female, Neurology (clinical), business, 030217 neurology & neurosurgery, Myopathies, Structural, Congenital
Abstract

Centronuclear myopathy (CNM) is a congenital myopathy characterized by an abnormally high number of muscle fibers with centrally located nuclei. Autosomal-dominant centronuclear myopathy-1 (CNM1) results from mutations in the dynamin 2 gene (DNM2) and accounts for approximately 50 % of all CNM cases. Up to now, around 35 mutations of DNM2 gene have been identified in CNM; however, the underlying molecular mechanism of DNM2 mutation in the pathology of CNM remains elusive, and the standard clinical characteristics and the genotype-phenotype correlation of DNM2 gene mutation with CNM have not yet been defined. Here, we report the clinical characteristics, molecular diagnosis strategy, and DNM2 gene mutations of four Chinese Han patients with CNM. Congenital myopathy-targeted next-generation sequencing (NGS) was applied to sequence the regions of the genome that contain all the coding regions of all known CNM genes and other congenital myopathy genes. We found potential DNM2 mutations in all four of the patients. Further targeted Sanger DNA sequencing of DNM2 found the 1106G>A (p.R369Q) mutation in patients 1 and 2, the c.1393C>T (p.R465W) mutation in patient 3, and the c.1565G>A (p.R522H) mutation in patient 4, all of which were reported previously to be causative mutations of DNM2-related CNM. Our results suggest that the combination of targeted NGS and Sanger sequencing is an effective, rapid, and reliable strategy for the molecular diagnosis of CNM and other genetically heterogeneous disorders.

Published
2016

6. Multiple acyl-CoA dehydrogenation deficiency as decreased acyl-carnitine profile in serum

Author

Duoling Li, Wei Li, Chuanzhu Yan, Yuying Zhao, and Bing Wen

Subjects
Iron-Sulfur Proteins, Male, medicine.medical_specialty, Electron-Transferring Flavoproteins, DNA Mutational Analysis, Late onset, Dermatology, SLC22A5, Compound heterozygosity, Polymyositis, Young Adult, Prednisone, Carnitine, Internal medicine, Humans, Medicine, Multiple Acyl Coenzyme A Dehydrogenase Deficiency, Muscle, Skeletal, Oxidoreductases Acting on CH-NH Group Donors, Muscle biopsy, medicine.diagnostic_test, biology, business.industry, Muscle weakness, General Medicine, medicine.disease, Psychiatry and Mental health, Endocrinology, Mutation, biology.protein, Acyl Coenzyme A, Neurology (clinical), medicine.symptom, business, medicine.drug
Abstract

We report a case with late onset riboflavin-responsive multiple acyl-CoA dehydrogenation deficiency (MADD) characterized by decreased acyl-carnitine profile in serum which is consistent with primary systemic carnitine deficiency (CDSP) while just the contrary to a typical MADD. This patient complained with muscle weakness, muscle pain and intermittent vomiting, and was diagnosed as polymyositis, received prednisone therapy before consulted with us. Muscle biopsy revealed mild lipid storage. The findings of serum acyl-carnitines were consistent with CDSP manifesting as decreased free and total carnitines in serum. But oral L-carnitine supplementation was not very effective to this patient and mutation analysis of the SLC22A5 gene for CDSP was normal. Later, another acyl-carnitine analysis revealed a typical MADD profile in serum, which was characterized by increased multiple acyl-carnitines. Compound heterozygous mutations were identified in electron transferring-flavoprotein dehydrogenase (ETFDH) gene which confirmed the diagnosis of MADD. After administration of riboflavin, he improved dramatically, both clinically and biochemically. Thus, late onset riboflavin-responsive MADD should be included in the differential diagnosis for adult carnitine deficiency.

Published
2015

7. Twinkle mutations in two Chinese families with autosomal dominant progressive external ophthalmoplegia

Author

Kaiming Liu, Yuying Zhao, Bing Wen, Chuanzhu Yan, Pengfei Lin, Yue-Bei Luo, and Kunqian Ji

Subjects
Adult, Male, Ophthalmoplegia, Chronic Progressive External, medicine.medical_specialty, Nuclear gene, Mitochondrial disease, DNA Mutational Analysis, Dermatology, Biology, Mitochondrial Proteins, Asian People, Molecular genetics, medicine, Humans, Point Mutation, Muscle, Skeletal, Gene, Family Health, Genetics, Chinese population, External ophthalmoplegia, Point mutation, DNA Helicases, General Medicine, Middle Aged, medicine.disease, Nuclear DNA, Psychiatry and Mental health, Female, Neurology (clinical)
Abstract

Autosomal dominant progressive external ophthalmoplegia (adPEO) is a common adult onset mitochondrial disease caused by mutations in nuclear DNA (nDNA). Twinkle is one of the nuclear genes associated with adPEO. Clinical, histochemical, and molecular genetics findings of 6 patients from two Chinese families with adPEO were reported. Two point mutations (c.1423G>C, p.A475P and c.1061G>C, p.R354P) of Twinkle gene have been found. Multiple mtDNA deletions were also detected in patient’s muscle and fibroblasts. This study confirms two mutations in Chinese adPEO families, which were first reported in the Chinese population.

Published
2013

8. Novel PANK2 gene mutations in two Chinese siblings with atypical pantothenate kinase-associated neurodegeneration

Author

Pengfei Lin, Jinfan Zheng, Chuanzhu Yan, Jingli Shan, Bing Wen, and Jun Zhu

Subjects
Adult, Male, DNA Mutational Analysis, Dermatology, Gene mutation, Biology, Compound heterozygosity, Genetic analysis, Pantothenate kinase-associated neurodegeneration, Asian People, Genotype, medicine, Humans, Gene, Pantothenate Kinase-Associated Neurodegeneration, Genetics, Siblings, Neurodegeneration, Brain, General Medicine, PANK2, medicine.disease, Magnetic Resonance Imaging, Phosphotransferases (Alcohol Group Acceptor), Psychiatry and Mental health, Mutation, Female, Neurology (clinical)
Abstract

Pantothenate kinase-associated neurodegeneration (PKAN) is an autosomal-recessive disorder characterized by neurodegeneration and iron accumulation in the brain. Classic and atypical PKAN are distinguished on the basis of age at onset and disease progression. PANK2, localized on chromosome20p13, is confirmed as the responsible gene. We report two Chinese siblings with atypical PKAN, who had a 26- and 24-year disease course, respectively. Brain MRI scans of the two siblings showed the specific “eye of the tiger” sign. Genetic analysis identified novel compound heterozygous mutations (IVS1-2 A>T, c.T1130C) in PANK2 gene, which were confirmed to be deleterious. We verify the clinical heterogeneity even in siblings with identical genotype and expand the gene mutation pool for PKAN.

Published
2012

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