Depletion of cognate charged transfer RNA causes translational frameshifting within the expanded CAG stretch in huntingtin.

Hannah Girstmair, Paul Saffert, Sascha Rode, Andreas Czech, Gudrun Holland, Norbert Bannert, Zoya Ignatova

Index: Cell Rep. 3(1) , 148-59, (2013)

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Abstract

Huntington disease (HD), a dominantly inherited neurodegenerative disorder caused by the expansion of a CAG-encoded polyglutamine (polyQ) repeat in huntingtin (Htt), displays a highly heterogeneous etiopathology and disease onset. Here, we show that the translation of expanded CAG repeats in mutant Htt exon 1 leads to a depletion of charged glutaminyl-transfer RNA (tRNA)(Gln-CUG) that pairs exclusively to the CAG codon. This results in translational frameshifting and the generation of various transframe-encoded species that differently modulate the conformational switch to nucleate fibrillization of the parental polyQ protein. Intriguingly, the frameshifting frequency varies strongly among different cell lines and is higher in cells with intrinsically lower concentrations of tRNA(Gln-CUG). The concentration of tRNA(Gln-CUG) also differs among different brain areas in the mouse. We propose that translational frameshifting may act as a significant disease modifier that contributes to the cell-selective neurotoxicity and disease course heterogeneity of HD on both cellular and individual levels.Copyright © 2013 The Authors. Published by Elsevier Inc. All rights reserved.