Zhengmao Hu

Confirmation and refinement of a genetic locus of congenital motor nystagmus in Xq26.3-q27.1 in a Chinese family

Congenital motor nystagmus (CMN), a subtype of nystagmus, may reduce vision or be associated with other, more serious, conditions that limit vision. The genetic basis for CMN is still unknown. To identify a locus for CMN, genotyping and linkage analysis were performed in 22 individuals from a Chinese family with X-linked CMN using markers from X chromosome. The maximum LOD score obtained for microsatellite maker DXS1192 linked the CMN locus in this family to Xq. By haplotype construction the locus for CMN was finally localized to an approximately 4.4-cM region at chromosome Xq26.3-q27.1. The SLC9A6 and FGF13 genes in this region, were selected and screened for mutation in this family, but no mutation was detected.

A novel locus for congenital simple microphthalmia family mapping to 17p12-q12.

PURPOSEnTo investigate the etiology in a family with autosomal-dominant congenital simple microphthalmia of Chinese origin.nnnMETHODSnA whole-genome scan was performed by using 382 microsatellite DNA markers after the exclusion of reported candidates linked to microphthalmia. Additional fluorescent markers were genotyped for fine mapping. To find out the novel predisposing gene, 14 candidate genes including CRYBA1 and NCOR1 were selected to screen for the mutation by the PCR direct-sequencing method. Genome-wide single-nucleotide polymorphism (SNP) genotyping was performed to find out the pathogenetic copy number variation, as well.nnnRESULTSnThe most statistically significant linkage results were obtained at D17S1824 (maximum LOD score, 4.97, at recombination fraction 0.00). Haplotype analyses supported the location of the disease-causing gene to a 21.57-cM interval between loci D17S900 and D17S1872 of chromosome 17, region p12-q12. However, no mutation or CNV (copy number variation) was identified to be responsible for the microphthalmia phenotype of this pedigree.nnnCONCLUSIONSnA novel suggestive linkage locus for congenital microphthalmia was detected in a Chinese family. This linkage region provides a target for susceptibility gene identification.

Genetic screening for mutations in the Nrdp1 gene in Parkinson disease patients in a Chinese population.

Strong evidence has shown that a defect in the Parkin gene is known to be a common, genetic cause of Parkinson disease (PD). The E3 ubiquitin ligase Nrdp1 is shown to interact with the N terminal of Parkin (the first 76 amino acids) and catalyze degradation of Parkin via the ubiquitin-proteasome pathway, suggesting that Nrdp1 may be involved in the development of PD via the regulation of Parkin, We believe we are the first to have screened PD patients for mutations in the Nrdp1 gene to determine the association between these variants and PD. By direct sequencing, we analysed the entire coding regions and 5 UTR of Nrdp1 in 209 Chinese PD patients and 302 unrelated healthy individuals. No variant was detected in the coding regions (exons 3-7); only 2 variants (c.-206 T > A and c.-208-8 A > G) were identified in the 5 UTR (exon 2) and intron 1. Furthermore, a study of the allelic and genotypic association between patients and controls showed no significant association between the c.-206 T > A polymorphism and PD; c.-208-8 A > G was identified in one PD patient and not in controls. Our data do not support the hypothesis of a major role for the Nrdp1 gene in PD development in the Chinese population.

Phenotypes and cellular effects of GJB1 mutations causing CMT1X in a cohort of 226 Chinese CMT families

The aim of this study is to explore the phenotypic and genotypic features of X‐linked Charcot–Marie‐Tooth (CMT) disease in the mainland of China and to study the cellular effects of six novel Gap junction protein beta‐1 variants. We identified 25 missense and 1 non‐sense mutations of GJB1 in 31 unrelated families out of 226 CMT families. The frequency of GJB1 mutations was 13.7% of the total and 65% of intermediate CMT. Six novel GJB1 variants (c.5A>G, c.8G>A, c.242T>C, c.269T>C, c.317T>C and c.434T>G) were detected in six unrelated intermediate CMT families. Fluorescence revealed that HeLa cells transfected with EGFP‐GJB1‐V74M, EGFP‐GJB1‐L81P or EGFP‐GJB1‐L90P had diffuse endoplasmic reticulum staining, HeLa cells transfected with EGFP‐GJB1‐L106P had diffuse intracellular staining, and HeLa cells transfected with EGFP‐GJB1‐N2S had cytoplasmic and nuclear staining. The distribution of Cx32 in HeLa cells transfected with EGFP‐GJB1‐F145C was similar to that of those transfected with wild‐type (WT). These six variants resulted in a higher percentage of apoptosis than did WT as detected by flow cytometry and Hoechst staining. In conclusion, mutation screening should be first performed in intermediate CMT patients, especially those with additional features. The novel GJB1 variants c.5A>G, c.8G>A, c.242T>C and c.269T>C are considered pathogenic, and c.317T>C and c.434T>G are classified as probably pathogenic.

Mutation L437P in the 2B domain of keratin 1 causes diffuse palmoplantar keratoderma in a Chinese pedigree

Diffuse palmoplantar keratoderma (DPPK) is an autosomal dominant genodermatosis characterized by uniform hyperkeratosis of the palm and sole epidermis. This disorder can be caused by mutations in the genes keratin 1, keratin 9, keratin 16, desmoglein 1 and plakoglobin. Here we present a DPPK Chinese pedigree and identify the aetiology as a novel missense mutation, L437P, located in a highly conserved helix motif in domain 2B of KRT1. Functional analysis shows that overexpression of the L437P mutant in cultured cells leads to abnormal intermediate filament networks and filament aggregation. This gain‐of‐function mutation highlights the role of domain 2B in mediating filament assembly.

Rapid genetic screening of Charcot-Marie-Tooth disease type 1A and hereditary neuropathy with liability to pressure palsies patients

We used the allele-specific PCR-double digestion method on peripheral myelin protein 22 (PMP22) to determine duplication and deletion mutations in the proband and family members of one family with Charcot-Marie-Tooth disease type 1 and one family with hereditary neuropathy with liability to pressure palsies. The proband and one subclinical family member from the Charcot-Marie-Tooth disease type 1 family had a PMP22 gene duplication; one patient from the hereditary neuropathy with liability to pressure palsies family had a PMP22 gene deletion. Electron microscopic analysis of ultrathin sections of the superficial peroneal nerve from the two probands demonstrated demyelination and myelin sheath hyperplasia, as well as an ‘onion-like’ structure in the Charcot-Marie-Tooth disease type 1A patient. We observed an irregular thickened myelin sheath and ‘mouse-nibbled’-like changes in the patient with hereditary neuropathy with liability to pressure palsies. In the Charcot-Marie-Tooth disease type 1A patient, nerve electrophysiological examination revealed moderate-to-severe reductions in the motor and sensory conduction velocities of the bilateral median nerve, ulnar nerve, tibial nerve, and sural nerve. Moreover, the compound muscle action potential amplitude was decreased. In the patient with hereditary neuropathy with liability to pressure palsies, the nerve conduction velocity of the bilateral tibial nerve and sural nerve was moderately reduced, and the nerve conduction velocity of the median nerve and ulnar nerve of both upper extremities was slightly reduced.