Genetic Distribution of Five Spinocerebellar Ataxia Microsatellite Loci in Mexican Native American Populations and Its Impact on Contemporary Mestizo Populations.

Rocío Gómez,César Cerecedo-Zapata,Yessica Tapia-Guerrero,Jonathan Magaña,Luis Velázquez-Pérez,Gerardo Leyva-Gómez,Bulmaro Cisneros,Elvia Mendoza-Caamal,Lorena Orozco,Norberto Leyva-García

doi:10.3390/genes13010157

Abstract

Spinocerebellar ataxias (SCAs) conform a heterogeneous group of neurodegenerative disorders with autosomal dominant inheritance. Five of the most frequent SCAs are caused by a CAG repeat expansion in the exons of specific genes. The SCAs incidence and the distribution of polymorphic CAG alleles vary among populations and ethnicities. Thus, characterization of the genetic architecture of ethnically diverse populations, which have undergone recent admixture and demographic events, could facilitate the identification of genetic risk factors. Owing to the great ethnic diversity of the Mexican population, this study aimed to analyze the allele frequencies of five SCA microsatellite loci (SCA1, SCA2, SCA3, SCA6, and SCA7) in eleven Mexican Native American (MNA) populations. Data from the literature were used to compare the allelic distribution of SCA loci with worldwide populations. The SCA loci allelic frequencies evidenced a certain genetic homogeneity in the MNA populations, except for Mayans, who exhibited distinctive genetic profiles. Neither pathological nor large normal alleles were found in MNA populations, except for the SCA2 pre-mutated allele in the Zapotec population. Collectively, our findings demonstrated the contribution of the MNA ancestry in shaping the genetic structure of contemporary Mexican Mestizo populations. Our results also suggest that Native American ancestry has no impact on the origin of SCAs in the Mexican population. Instead, the acquisition of pathological SCA alleles could be associated with European migration.

Highlights

Introduction conditions of the Creative CommonsThe autosomal dominantly inherited polyglutamine spinocerebellar ataxias constitute a group of neuromuscular disorders caused by a CAG trinucleotide repeat expansion in the coding region of different genes [1,2,3]
The CAG repeat allele frequencies of the SCA1, SCA2, SCA3, SCA6, and SCA7 loci were estimated in Mexican Native American (MNA) populations belonging to six linguistic families
SCA1 and SCA3 loci showed the highest diversity of CAG repeat alleles, with 13 and 18 different alleles in MNA

Summary

Introduction

The autosomal dominantly inherited polyglutamine spinocerebellar ataxias (polyQSCAs) constitute a group of neuromuscular disorders caused by a CAG trinucleotide repeat expansion in the coding region of different genes [1,2,3]. Repeats results, in turn, in the synthesis of mutant toxic proteins bearing a -polyglutamine tract (polyQ) [4]. SCA subtypes present a relative low frequency worldwide (3 in 100,000 inhabitants), with SCA3 being the most recurrent subtype, followed by SCA2, SCA1, SCA6, and SCA7; all of which are classified as polyQ-SCA [5,6]. The distribution and prevalence of polyQ-SCAs vary between ethnicities and geographic regions. Studies to determine the prevalence of polyQ-SCAs and the length of CAG alleles in founder populations might help to elucidate the origin and spread of the expanded alleles SCA2 is highly prominent in Cuba, while SCA3 and SCA7 have remarkable frequencies in Portuguese speaking countries and Mexico, respectively [5,7,8,9].

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