Abstract

Friedreich's ataxia (FRDA) is an untreatable disorder with neuro- and cardio-degenerative progression. This monogenic disease is caused by the hyper-expansion of naturally occurring GAA repeats in the first intron of the FXN gene, encoding for frataxin, a protein implicated in the biogenesis of iron-sulfur clusters. As the genetic defect interferes with FXN transcription, FRDA patients express a normal frataxin protein but at insufficient levels. Thus, current therapeutic strategies are mostly aimed to restore physiological FXN expression. We have previously described SINEUPs, natural and synthetic antisense long non-coding RNAs, which promote translation of partially overlapping mRNAs through the activity of an embedded SINEB2 domain. Here, by in vitro screening, we have identified a number of SINEUPs targeting human FXN mRNA and capable to up-regulate frataxin protein to physiological amounts acting at the post-transcriptional level. Furthermore, FXN-specific SINEUPs promote the recovery of disease-associated mitochondrial aconitase defects in FRDA-derived cells. In summary, we provide evidence that SINEUPs may be the first gene-specific therapeutic approach to activate FXN translation in FRDA and, more broadly, a novel scalable platform to develop new RNA-based therapies for haploinsufficient diseases.

Highlights

  • Friedreich’s ataxia (FRDA) is a life-threatening monogenic disease with neuro- and cardio-degenerative progression [1]

  • Since SINEUPs target the mRNA sequence around the starting AUG, the precise knowledge of the real sites of transcription initiation (TSS) is crucial, especially in cells and tissues relevant for the gene of interest and its associated disease

  • We have found that the annotation of the reference sequence is often not representative of the cell-type-specific usage of Transcription Start Site (TSS) and of the 5 untranslated region (UTRs) of endogenous mRNAs

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Summary

Introduction

Friedreich’s ataxia (FRDA) is a life-threatening monogenic disease with neuro- and cardio-degenerative progression [1]. It represents the most frequent type of inherited ataxia, affecting >15 000 patients in Europe and North America. Neurodegenerative motor symptoms typically appear before adolescence with progressive gait instability and loss of coordination, while the cardiac component of the disease causes premature mortality at a mean age of 40 years [3]. Almost all FRDA patients carry an intronic homozygous expansion of natural GAA repeats located in the frataxin (FXN) gene [4]. The human FXN locus contains normally from 10 to 66 GAAtriplet repeats within the first intron, whereas FRDA individuals have a hyper-expansion of such repeats, up to 1700 triplets.

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