ABSTRACT
Spinocerebellar ataxia subtypes 1, 3, and 6 (SCA1, MJD/SCA3, and SCA6) are among the most prevalent autosomal dominant cerebellar ataxias worldwide, but their relative frequencies in Peru are low. Frequency of large normal (LN) alleles at spinocerebellar ataxia-causative genes has been proposed to be associated with disease prevalence. To investigate the allelic distribution of the CAG repeat in ATXN1, ATXN3, and CACNA1A genes in a Peruvian mestizo population and examine their association with the relative frequency of SCA1, MJD/SCA3, and SCA6 across populations. We genotyped 213 healthy mestizo individuals from Northern Lima, Peru, for ATXN1, ATXN3, and CACNA1A using polymerase chain reaction (PCR) and polyacrylamide gel electrophoresis (PAGE). We compared the frequency of LN alleles and relative disease frequency between populations. We also tested 40 samples for CAT repeat interruptions within the CAG tract of ATXN1. We found no association between disease frequency and population frequency of LN alleles at ATXN1 and ATXN3. All 40 ATXN1 samples tested for CAT interruptions were positive. Frequency of LN alleles at CACNA1A correlates with SCA6 frequency across several populations, but this effect was largely driven by data from a single population. Low frequency of SCA1 and MJD/SCA3 in Peru is not explained by frequency of LN alleles at ATXN1 and ATXN3, respectively. The observed correlation between CACNA1A LN alleles and SCA6 frequency requires further assessment.
Subject(s)
Ataxin-1/genetics , Ataxin-3/genetics , Calcium Channels/genetics , Cerebellar Ataxia/genetics , Repressor Proteins/genetics , Adult , Alleles , Female , Genotype , Humans , Machado-Joseph Disease/genetics , Male , Middle Aged , Peru , Spinocerebellar Ataxias/genetics , Trinucleotide Repeat ExpansionABSTRACT
BACKGROUND: Late onset cases of Huntington disease (HD), with onset ≥60 years, account for up to 20% of HD cases worldwide. Clinical features include mild motor dysfunction with slow progression and cognitive impairment, frequent absence of family history and low number of CAG repeats. The clinical and molecular features of late onset HD is still understudied in Latin America. OBJECTIVES: To describe the clinical and molecular characteristics of late onset HD in a Peruvian cohort. METHODS: An observational study was carried out by reviewing the HD registry at the Neurogenetics Research Center-INCN from 2000 to 2014. Genotyping of HTT gene was confirmed using standard PCR and PAGE in accordance to protocols previously established. RESULTS: Thirty-one late onset HD cases from 27 pedigrees were identified (9.42% of total HD cases, n = 329), 51.61% were male. Mean age at onset was 64.1 ± 4.2 and CAG repeats mean was 42.5 ± 2.5. We did not find significant correlation between age at onset and CAG repeats. 33.3% of cases were traced back to Cañete valley. Twenty-two cases had a positive family history, 14 of them with paternal transmission. Choreic movements and cognitive impairment were the main existing manifestations reported in this cohort, with lower frequency of psychiatric disturbances. CONCLUSIONS: This report of late onset HD affected individuals shows a mild phenotype expression of the disease, associated with low range of CAG repeats and up to 30% of cases with absence of clear family history. Cañete valley remains the region with more cases.
Subject(s)
Huntington Disease/genetics , Nerve Tissue Proteins/genetics , Trinucleotide Repeat Expansion/genetics , Age of Onset , Aged , Aged, 80 and over , Cohort Studies , Female , Humans , Huntingtin Protein , Huntington Disease/epidemiology , Huntington Disease/physiopathology , Male , Middle Aged , Peru/epidemiologyABSTRACT
Neurogenetics, the science that studies the genetic basis of the development and function of the nervous system, is a discipline of recent development in Peru, an emerging Latin American country. Herein, we review the clinical, scientific and ethical aspects regarding the development of this discipline, starting with the first molecular diagnosis of neurogenetic diseases, to family and population-based genetic association studies. Neurogenetics in Peru aims to better explain the epidemiology of monogenic and complex neurodegenerative disorders that will help in implementing public health policies for these disorders. The characterization of Peru and its health system, legal issues regarding rare diseases and the historical milestones in neurogenetics are also discussed.
ABSTRACT
Objetivos: Diseñar una estrategia alternativa por PCR para el genotipado de secuencias ricas en citosinas, basada en modificación nucleotídica. Material y métodos: Se modificó el gen FMR1 nativo de ocho individuos clínicamente no afectados por el Síndrome X frágil, cambiando las citosinas por uracilos, empleando bisulfito de sodio. El ADN modificado fue purificado y cuantificado por espectrofotometría. Las estructuras alternativas y potenciales islas CpG que adopta el microsatélite inestable fueron simuladas con los programas MFOLD y CpGplot. Se generaron cebadores específicos que hibriden tanto con el microsatélite modificado (Primer T) y con una secuencia modificada de las islas CpG (Primer M), utilizando el programa MethPrimer. Finalmente, ambas secuencias fueron amplificadas por PCR y los amplicones fueron separados por electroforesis en gel de poliacrilamida (PAGE por sus siglas en inglés) al 6% y visualizados con tinción de nitrato de plata. Resultados: La modificación del ADN fue evidenciada por espectrofotometría al uracilo. Las estructuras observadas en la simulación fueron las horquillas encontrándose dos potenciales islas CpG. La amplificación con los cebadores T, confirmó el diseño in silico desarrollado para abordar la estructura en horquillas. La amplificación con los cebadores M permitió detectar metilación de la primera isla CpG del gen FMR1.Conclusión: Se propone un diseño alternativo para amplificación de secuencias de microsatélite que contengan citosinas metiladas y no metiladas. Se requieren estudios posteriores con muestras de ADN que contengan microsatélites muy expandidos para validar su aplicación para diagnóstico molecular. (AU)
Objectives: To design an alternative strategy for genotyping cytosine-rich sequences using PCR and nucleotide modification. Methods: The FMR1 gene wild type was modified in the DNA obtained from eight individuals clinically unaffected for Fragile X Syndrome; cytosines were replaced by uracils using sodium bisulfite. Modified DNA was purified and quantified by spectrophotometry. Alternative structures and potential CpG islands of the unstable microsatellite were simulated using MFOLD and CpGplot tools. Specific primers were generated to hybridize with both the modified microsatellite (Primer G) and a modified sequence of CpG islands (Primer M) using the MethPrimer software. Finally, both sequences were amplified by PCR and the amplicons were separated by electrophoresis in silver-stained PAGE 6% gels. Results: The DNA modification was evidenced by spectrophotometry to uracil. We found two potential CpG islands. The amplification with T primers confirmed the "in silico" design developed to engage hairpin structures. The amplification with M primers detected methylation of the first CpG island in the FMR1 gene. Conclusion: We propose an alternative design for amplifying microsatellite sequences that contain methylated and unmethylated cytosine bases. Further studies are required with DNA samples containing expanded microsatellites to validate its molecular diagnostic application. (AU)
