Análisis molecular de los repetidos CAG en pacientes mexicanos con ataxia espinocerebelosa tipo 2 / Molecular analysis of the CAG repeat among patients with Type-2 spinocerebellar ataxia in the Mexican population

Antecedentes: La ataxia espinocerebelosa tipo 2 es causada por la expansión del repetido CAG presente en el exón 1 del gen de la ataxina-2, lo cual origina la incorporación de un segmento de poliglutaminas en la proteína mutante. Métodos: Mediante reacción en cadena de la polimerasa y electroforesis capilar se determinó el número de repetidos CAG del gen de la ataxina-2 en 66 individuos pertenecientes a tres familias mexicanas diagnosticadas clínicamente con ataxia espinocerebelosa tipo 2, y en 400 individuos de una muestra de población mestiza mexicana. Resultados: Se identificó la expansión del repetido CAG en 11 sujetos con sintomatología de ataxia espinocerebelosa tipo 2 y en cuatro individuos asintomáticos, lo que confirmó el diagnóstico en dos de las tres familias analizadas. Se determinó que los pacientes con mayor número de repetidos desarrollaron la sintomatología de la enfermedad a una edad más temprana, fenómeno conocido como “anticipación”. Los alelos silvestres presentaron un rango entre 13 y 30 repetidos CAG, siendo el alelo de 22 repetidos el más frecuente, mientras que los alelos mutados mostraron un rango de 36 a 54 repetidos. Conclusiones: La identificación de la expansión del repetido CAG del gen de la ataxina-2 confirmó el diagnóstico clínico de ataxia espinocerebelosa tipo 2.

BACKGROUND: Spinocerebellar ataxia type 2 (SCA2) results from the expansion of a CAG triplet located within the coding sequence of the ataxin-2 gene, which ultimately provokes the incorporation of a stretch of polyglutamines in the mutant protein. METHODS: We determined by PCR and capillary electrophoresis the number of ataxin2 gene CAG repeats in 66 individuals belonging to 3 families, clinically diagnosed with SCA2, and 400 subjects from a sample of the mestizo Mexican population. RESULTS: The CAG repeat expansion was found in 11 symptomatic subjects and four asymptomatic individuals, confirming the SCA2 clinical diagnosis in two out of the three families studied. We noted that patients with longer CAG repeat numbers have an early disease onset, a phenomenon known as anticipation. Wild-type alleles showed a CAG repeat range between 13 and 30, and the allele carrying 22 CAG repeats was the most common among our sample. Mutant alleles also displayed a range between 36 and 54 CAG repeats. CONCLUSIONS: The identification of the CAG repeat expansion facilitates an accurate SCA2 diagnosis.

Expression of Expanded Polyglutamine Disease Proteins in Drosophila (Drosophila Polyglutamine Disease Models) / 소아과

PURPOSE: Polyglutamine diseases are a group of diseases caused by the expansion of a polyglutamine tract in the protein. The present study was performed to verify if polyglutamine disease transgenic Drosophila models show similar dysfunctions as are seen in human patients. METHODS: Polyglutamine disease transgenic Drosophila were tested for their climbing ability. And using genetic methods, the effects of anti-apoptotic gene bcl-2 and chemical chaperones on neurodegeneration were observed. Also, spinocerebellar ataxia 2 (SCA2) transgenic Drosophila lines were generated for future studies. RESULTS: Expanded forms of spinocerebellar ataxia 3 (SCA3) transgenic protein causes characteristic locomotor dysfunction when expressed in the nervous system of Drosophila but the anti-apoptotic gene bcl-2 shows no evidence of ameliorating the deleterious effect of the expanded protein. However, Glycerol, a chemical chaperone, seemed to reduce the toxicity, at least in the eyes of the transgenic flies. The level SCA2 expression is too weak in the transgenic SCA2 Drosophila for evaluation. CONCLUSION: SCA3 transgenic Drosophila show ataxic behavior as observed in human patients. Chemical chaperones such as glycerol may prove beneficial in this class of genetic disease, which has no current method of cure.