Aberrant Neuregulin 1/ErbB Signaling in Charcot-Marie-Tooth Type 4D Disease.

Charcot-Marie-Tooth type 4D (CMT4D) is an autosomal recessive demyelinating form of CMT characterized by progressive motor and sensory neuropathy. N-myc downstream regulated gene 1 (NDRG1) is the causative gene for CMT4D. Although more CMT4D cases have been reported, the comprehensive molecular mechanism underlying CMT4D remains elusive. Here, we generated a novel knockout mouse model in which the fourth and fifth exons of the Ndrg1 gene were removed. Ndrg1-deficient mice develop early progressive demyelinating neuropathy and limb muscle weakness. The expression pattern of myelination-related transcriptional factors, including SOX10, OCT6, and EGR2, was abnormal in Ndrg1-deficient mice. We further investigated the activation of the ErbB2/3 receptor tyrosine kinases in Ndrg1-deficient sciatic nerves, as these proteins play essential roles in Schwann cell myelination. In the absence of NDRG1, although the total ErbB2/3 receptors expressed by Schwann cells were significantly increased, levels of the phosphorylated forms of ErbB2/3 and their downstream signaling cascades were decreased. This change was not associated with the level of the neuregulin 1 ligand, which was increased in Ndrg1-deficient mice. In addition, the integrin ß4 receptor, which interacts with ErbB2/3 and positively regulates neuregulin 1/ErbB signaling, was significantly reduced in the Ndrg1-deficient nerve. In conclusion, our data suggest that the demyelinating phenotype of CMT4D disease is at least in part a consequence of molecular defects in neuregulin 1/ErbB signaling.

Clinical and Molecular Features of POLG-Related Sensory Ataxic Neuropathy with Dysarthria and Ophthalmoparesis.

Sensory ataxic neuropathy, dysarthria, and ophthalmoparesis (SANDO) is a rare mitochondrial disorder associated with mutations in the POLG gene, which encodes the DNA polymerase gamma catalytic subunit. A few POLG-related SANDO cases have been reported, but the genotype-phenotype correlation remains unclear. Here, we report a patient with SANDO carrying two novel missense variants (c.2543G>C, p.G848A and c.452 T>C, p.L151P) in POLG. We also reviewed previously reported cases to systematically evaluate the clinical and genetic features of POLG-related SANDO. A total of 35 distinct variants in the coding region of POLG were identified in 63 patients with SANDO. The most frequent variant was the p.A467T variant, followed by the p.W748S variant. The clinical spectrum of SANDO is heterogeneous. No clear correlation has been observed between the mutation types and clinical phenotypes. Our findings expand the mutational spectrum of POLG and contribute to clinical management and genetic counseling for POLG-related SANDO.

Mutation screening of VPS16 gene in patients with isolated dystonia.

Mutations in VPS16 have been identified to be responsible for generalized dystonia. We screened VPS16 variants in 53 unrelated subjects with isolated dystonia via whole-exome sequencing. A novel pathogenic frameshift mutation p.R643fs* was found in a patient with early-onset multifocal dystonia with prominent oromandibular and bulbar involvement. Our findings expanded the spectrum of VPS16-related dystonia and suggested that mutations in VPS16 should be considered in patients with progressive early-onset dystonia.

The expanding clinical and genetic spectrum of ANO3 dystonia.

INTRODUCTION: Dystonia is a movement disorder with high clinical and genetic heterogeneity. Mutations in Anoctamin-3 (ANO3) gene have been reported to cause dystonia 24 (DYT24). This study aims to clarify the spectrum and frequency of ANO3 rare variants in Chinese populations with primary dystonia and understand the clinical and genetic features of DYT24. METHODS: Sanger sequencing was used to screen all exons and exon-intron boundaries of ANO3 for rare variants in 115 primary dystonia patients. The clinical manifestations of patients with ANO3 variants in our study and previously reported literatures were further characterized. RESULTS: Four distinct variants of ANO3 (c.1127A > G, c.1235 T > A, c.1531-3T > C, c.-11G > T) were identified in six unrelated individuals. Combined with our work and literature review, a total of 35 different rare variants distributed in ANO3 were identified in 62 dystonia patients. The predominant phenotype is cranio-cervical dystonia and more than half of patients develop head/limb tremor. Most of patients presented with isolated dystonia whereas few of them showed combined dystonia. The age of onset ranged from 1 to 69 years and peaked in late adulthood, while for generalized dystonia it peaked in a young age. Half of patients with generalized dystonia experienced deep brain stimulation (DBS). And all of them showed improvement of dystonia by DBS. CONCLUSIONS: This study confirms a relatively high frequency of rare ANO3 variants in Chinese patients with dystonia and indicates that the late adulthood-onset, cranio-cervical dystonia seems to be an important feature of the ANO3 phenotype. Further functional studies are warranted to understand the role of ANO3 in dystonia.

Quantitative Proteomic Analysis of Rat Condylar Chondrocytes during Postnatal Development.

OBJECTIVE: To investigate differentially expressed proteins in rat mandibular condylar cartilage (MCC) chondrocytes caused by initial mastication for short postnatal periods. METHODS: Four groups of protein samples were extracted from primary cultured rat MCC chondrocytes, harvested from eigthy postnatal SD rats aged 1,7,14 and 28 days, with twenty in each group. Total proteins were labelled with isobaric tags for relative and absolute quantification (iTRAQ) reagents. Two-dimensional nano-high-performance liquid chromatography (HPLC) and matrix-assisted laser desorption ionization-time-of-flight/ time-of-flight (MALDI-TOF/TOF) mass spectrometry analysis with iTRAQ technique were performed. All data were analysed by MASCOT software with the SWISSPROT protein database. Furthermore, bioinformatics and statistical analysis were performed to classify their cellular components, biological processes, molecular functions and metabolic pathway by the PANTHER database. RESULTS: In total, 137 differentially expressed proteins were identified during MCC growth and were assigned to one or more cellular components. According to the PANTHER analysis, a significant proportion of proteins are involved in the metabolic process, cellular process, biological regulation, developmental process and response to stimulus. The most extensive molecular function was 43% in catalytic activity. In addition, it was found that proteins in MCC chondrocytes change markedly on the growth stage of eruption of the teeth. CONCLUSION: This study provides an integrated perspective of molecular mechanisms regulating early normal postnatal growth and development of rat MCC at the protein level.