A novel c.240_241insGG mutation in NDP gene in a family with Norrie disease.

BACKGROUND: Norrie disease (ND) is a rare, X-linked recessive disorder with the main characteristic of early childhood blindness. The aim of the present study was to identify the genetic cause of the disease and the phenotypic characteristics of the patients in an Iranian family with four affected males with ND. METHODS: Norrie disease pseudoglioma (NDP) gene was sequenced and clinical examination was performed on patients. RESULTS: A GG dinucleotide insertion in exon 3 (c.240_241insGG) of NDP was detected in all patients. The mutation caused a frameshift and an early stop codon (p.Phe81Glyfs*23). CONCLUSIONS: A novel mutation was found in the NDP gene in the affected males of the family. As the mutation was absent in the normal male members of the family, it should be the genetic cause of the disease.

Support for "Disease-Only" Genotypes and Excess of Homozygosity at the CYTH4 Primate-Specific GTTT-Repeat in Schizophrenia.

OBJECTIVE: The role of short tandem repeats (STRs) in the control of gene expression among species is being increasingly understood following the identification of several instances in which certain STRs occur identically, or expand differentially, in primates versus nonprimates. These STRs may regulate genes that participate in characteristics that are associated with the divergence of primates from sibling orders (e.g., brain higher order functions). The CYTH4 gene contains the longest tetranucleotide STR in its core promoter, at 7-repeats, and links to the evolution of human and nonhuman primates. Allele and genotype distribution of this STR were studied in patients affected by schizophrenia (SCZ) and controls. METHODS: High-resolution data were obtained on the allele and genotype distribution of the CYTH4 STR and a novel C > T single-nucleotide polymorphism (SNP) at its immediate upstream sequence in 255 patients with SCZ and 249 controls. Each sample was sequenced twice using the fluorescent dye termination method. RESULTS: Novel alleles were detected at the long extreme of the GTTT-repeat, at 10- and 11-repeats, in the SCZ cases and controls. Excess of homozygosity was observed for the entire range of alleles across the GTTT-repeat and the C > T SNP in the SCZ patients in comparison with the controls (Yates corrected p < 0.011). Three genotypes consisting of the 11-repeat allele (i.e., 11/11, 10/11, and 7/11) were detected only in the SCZ patients (i.e., disease-only genotypes), and contributed to 2.3% of the SCZ genotypes (Mid p exact <0.007). The frequency of the 11-repeat allele was estimated at 0.02 and 0.006 in the SCZ patients and controls, respectively (Mid p exact <0.006). CONCLUSION: This indicates that STR genotypes that are absent in the control group may be risk factors for SCZ. Future studies are warranted to test the significance of our findings.

A genetic variant in miRNA binding site of glutamate receptor 4, metabotropic (GRM4) is associated with increased risk of major depressive disorder.

BACKGROUND: Glutamate receptor 4, metabotropic (GRM4) expression is increased in the brain of patients with depression. The poorly conserved miR-1202 is downregulated in depression and is negatively correlated with GRM4. A variation located at the 3' UTR of the GRM4 gene may influence the interaction between miR-1202 and GRM4. The aim of this study was to determine the possible association between GRM4 3' UTR variant (rs2229901) and major depressive disorder (MDD). METHODS: A total of 500 subjects comprising 250 patients with MDD and 250 healthy controls were included in our study. The single nucleotide polymorphism rs2229901 was genotyped using PCR-RFLP method. Allele and genotype frequencies were compared between the two groups using chi-square test and logistic regression models. The impact of rs2229901 on GRM4/miR-1202 hybrid stability and local GRM4-3' UTR secondary structure were assessed using RNAsnp program. RESULTS: Genotype and allele frequency of rs2229901were significantly different in patients with MDD comparing to the control group (p=0.018 and p=0.007, respectively). The G-allele was more prevalent among patients with MDD. The rs2229901 variant was predicted to be structure-disruptive. LIMITATIONS: The relatively small sample size and lack of functional experiments are the major limitations of this study. CONCLUSION: Our results suggest that rs2229901 is associated with MDD risk. This variant probably impacts the interaction between GRM4 and miR-1202. Functional studies are needed to clarify the possible mechanisms by which rs2229901 influences MDD risk.

Identification of a Large DNAJB2 Deletion in a Family with Spinal Muscular Atrophy and Parkinsonism.

In this study, we described the identification of a large DNAJB2 (HSJ1) deletion in a family with recessive spinal muscular atrophy and Parkinsonism. After performing homozygosity mapping and whole genome sequencing, we identified a 3.8 kb deletion, spanning the entire DnaJ domain of the HSJ1 protein, as the disease-segregating mutation. By performing functional assays, we showed that HSJ1b-related DnaJ domain deletion leads to loss of HSJ1b mRNA and protein levels, increased HSJ1a mRNA and protein expressions, increased cell death, protein aggregation, and enhanced autophagy. Given the role of HSJ1 proteins in the degradation of misfolded proteins, we speculated that enhanced autophagy might be promoted by the elevated HSJ1a expression seen in HSJ1b-deficient cells. We also observed a significant reduction in both tau and brain-derived neurotrophic factor levels, which may explain the dopaminergic deficits seen in one of the affected siblings. We concluded that HSJ1b deficiency leads to a complex neurological phenotype, possibly due to the accumulation of misfolded proteins, caused by the lack of the DnaJ domain activity. We thus expand the phenotypic and genotypic spectrums associated with DNAJB2 disease and suggest relevant disease-associated mechanisms.