Study of FRDA gene in suspect Friedreich ataxia patients

Friedreich ataxia [FA] is an autosomal recessive disorder. Cause of about 2-4% of disease is a GAA triplet repeat expansion in the one allele and carries a point mutation as the other allele. This study was performed to investigate exons of FXN gene to find point mutations for the first time in Iran. In this descriptive study, 50 patients suspected to FA who referred to Special Medical Center were investigated. Genomic DNA was investigated by different PCR methods, including PCR for intron, Long PCR and PCR for exons of FXN gene. Then, products were sequenced and finally sequences were analyzed by related software. C to G nucleotide in intron 2 nt:825954, and T to C in intron 3 nt:832729 of FRDA gene were observed by sequencing method. Nucleotide G insertion was detected in exon 5a nt: 822225. Our study showed that diagnosis of FA is not simple because of clinical overlapping with other ataxia, some mutations in intron maybe affect on the disease which need more examination, and because of consanguinity marriage in Iran, some patients with homozygote mutation may show FA phenotype

Monoallelic thyroid peroxidase gene mutation in a patient with congenital hypothyroidism with total iodide organification defect / Mutação monoalélica no gene da tireoperoxidase em paciente com hipotireoidismo congênito com defeito total de incorporação de iodeto

The aim of this study was to identify the genetic defect of a patient with dyshormonogenetic congenital hypothyroidisms (CH) with total iodide organification defect (TIOD). A male child diagnosed with CH during neonatal screening. Laboratory tests confirmed the permanent and severe CH with TIOD (99 percent perchlorate release). The coding sequence of TPO, DUOX2, and DUOXA2 genes and 2957 base pairs (bp) of the TPO promoter were sequenced. Molecular analysis of patient's DNA identified the heterozygous duplication GGCC (c.1186_1187insGGCC) in exon 8 of the TPO gene. No additional mutation was detected either in the TPO gene, TPO promoter, DUOX2 or DUOXA2 genes. We have described a patient with a clear TIOD causing severe goitrous CH due to a monoallelic TPO mutation. A plausible explanation for the association between an autosomal recessive disorder with a single TPO-mutated allele is the presence of monoallelic TPO expression.

O objetivo deste estudo foi identificar defeitos genéticos em paciente com hipotireoidismo congênito (HC) por disormonogênese e defeito total de incorporação de iodeto (DIIT). Neonato do sexo masculino com HC diagnosticado pelo rastreamento neonatal. Exames clínicos e radiológicos confirmaram que o paciente apresentava HC severo e permanente com DIIT (teste de perclorato: 99 por cento). A região codificadora dos genes TPO, DUOX2, DUOXA2 e 2957 pares de bases (pb) do promotor de TPO foram sequenciados. No paciente foi identificada a duplicação em heterozigose GGCC no éxon 8 do gene TPO (c.1186_1187insGGCC). Nenhuma outra mutação foi localizada nos genes TPO, incluindo o promotor, DUOX2 ou DUOXA2. Descrevemos paciente com grave defeito de organificação de iodeto, provocando HC severo com bócio, em consequência de uma única mutação monoalélica no gene TPO. A expressão monoalélica no tecido tireoideano explicaria a associação de uma doen­ça autossômica recessiva com uma única mutação monoalélica.

Friedreich's ataxia--yesterday, today and tomorrow.

The present review traces the origin of Friedreich's Ataxia (FA) from the time of Nikolaus Friedreich in the mid-nineteenth century. The early hesitation on the part of the neurological community in accepting FA as a distinct entity, rather than a variant form of tabes dorsalis and multiple sclerosis, has been highlighted. Research within the last 6-7 years, has firmly established FA as a trinucleotide repeat disorder, the location of the offending gene, and the disease-related gene product, frataxin. Frataxin is now thought to interfere with the mitochondrial oxidative process and enhance iron accumulation. However, whether this iron accumulation is a primary causative event for symptom production is not clear and iron chelators are unlikely to be helpful in therapy. Of great promise is the use of free radical scavengers and antioxidants. One such agent idebenone, a short chain analogue of co-enzyme Q10, may have a future.