Long Tract of Untranslated CAG Repeats Is Deleterious in Transgenic Mice

Ren-Jun Hsu,Luen-Kui Chen,Chui-Yen Li,Li-Chun Wang,Kuang-Ming Hsiao,Min-Jon Lin,Huichin Pan,Todd Lamitina

doi:10.1371/journal.pone.0016417

Ren-Jun Hsu, Luen-Kui Chen + Show 6 more

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https://doi.org/10.1371/journal.pone.0016417

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Abstract

The most frequent trinucleotide repeat found in human disorders is the CAG sequence. Expansion of CAG repeats is mostly found in coding regions and is thought to cause diseases through a protein mechanism. Recently, expanded CAG repeats were shown to induce toxicity at the RNA level in Drosophila and C. elegans. These findings raise the possibility that CAG repeats may trigger RNA-mediated pathogenesis in mammals. Here, we demonstrate that transgenic mice expressing EGFP transcripts with long CAG repeats in the 3′ untranslated region develop pathogenic features. Expression of the transgene was directed to the muscle in order to compare the resulting phenotype to that caused by the CUG expansion, as occurs in myotonic dystrophy. Transgenic mice expressing 200, but not those expressing 0 or 23 CAG repeats, showed alterations in muscle morphology, histochemistry and electrophysiology, as well as abnormal behavioral phenotypes. Expression of the expanded CAG repeats in testes resulted in reduced fertility due to defective sperm motility. The production of EGFP protein was significantly reduced by the 200 CAG repeats, and no polyglutamine-containing product was detected, which argues against a protein mechanism. Moreover, nuclear RNA foci were detected for the long CAG repeats. These data support the notion that expanded CAG repeat RNA can cause deleterious effects in mammals. They also suggest the possible involvement of an RNA mechanism in human diseases with long CAG repeats.

Highlights

The expansion of unstable trinucleotide repeats underlies a number of human disorders, which can be grouped into two categories according to the location of the repeats
Generation of transgenic mice To determine if untranslated CAG repeat expansion causes pathogenic effects, we generated transgene constructs containing the enhanced green fluorescent protein (EGFP) gene with 0, 23 or 200 CAG repeats in the 39 untranslated regions (UTR) (Fig. 1A)
Previous data showing that CAG repeat RNA forms stable hairpin structures and nuclear foci both in vitro and in vivo have supported a role for CAG repeat RNA in pathogenesis

Summary

Introduction

The expansion of unstable trinucleotide repeats underlies a number of human disorders, which can be grouped into two categories according to the location of the repeats. Dominantly inherited neurodegenerative disorders are triggered by the expansion of CAG repeats located in the coding region. The expansion of different repeats, including CGG, GAA, CTG, and CAG, occur within the non-coding or untranslated regions (UTR), leading to fragile X syndrome (FRAX), Friedreich’s ataxia (FRDA), myotonic dystrophy type 1 (DM1), SCA8, and SCA12 [1,2,3,4,5]. Most CAG expansions are less than 150 repeats and are located in coding regions and translated into polyglutamine tracts within the corresponding protein. Loss of neurotrophic support due to reduced protein activity caused by polyglutamine expansions may contribute to the pathogenesis of neurodegeneration [7]

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