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Abstract
Huntington’s disease is caused by a pathologically long (>35) CAG repeat located in the first exon of the Huntingtin gene (HTT). While pathologically expanded CAG repeats are the focus of extensive investigations, non-pathogenic CAG tracts in protein-coding genes are less well characterized. Here, we investigated the function and evolution of the physiological CAG tract in the HTT gene. We show that the poly-glutamine (polyQ) tract encoded by CAGs in the huntingtin protein (HTT) is under purifying selection and subjected to stronger selective pressures than CAG-encoded polyQ tracts in other proteins. For natural selection to operate, the polyQ must perform a function. By combining genome-edited mouse embryonic stem cells and cell assays, we show that small variations in HTT polyQ lengths significantly correlate with cells’ neurogenic potential and with changes in the gene transcription network governing neuronal function. We conclude that during evolution natural selection promotes the conservation and purity of the CAG-encoded polyQ tract and that small increases in its physiological length influence neural functions of HTT. We propose that these changes in HTT polyQ length contribute to evolutionary fitness including potentially to the development of a more complex nervous system.
Highlights
Huntington’s disease (HD) is a neurological genetic disorder caused by an anomalous expansion of a >35 CAG triplet repeats in the huntingtin gene (HTT) that leads to an abnormally elongated polyglutamine tract [1,2,3]
The HTT polyQ tract is under purifying natural selection We started by investigating whether long-term patterns of conservation and change for HTT CAG repeats have been subjected to selective pressures
We assembled a Multiple Sequence Alignment (MSA) of HTT exon1 sequences from more than 200 chordate species—108 de novo sequenced orthologs and 101 sequences retrieved from online databases or in this sample only 21 synonymous substitutions were observed in the HTT polyQ stretch
Summary
Huntington’s disease (HD) is a neurological genetic disorder caused by an anomalous expansion of a >35 CAG triplet repeats in the huntingtin gene (HTT) that leads to an abnormally elongated polyglutamine (polyQ) tract [1,2,3] It is currently unknown whether HD pathogenesis occurs at the DNA, RNA, or protein levels [4,5,6,7]. HTT scaffolds a large repertoire of binding proteins to coordinate several cellular processes, including gene transcription, synaptic activity, vesicles trafficking and autophagy [8,9,10] In spite of this knowledge, the contribution of the nonpathogenic CAG tract itself and its highly polymorphic lengths in normal HTT function remains poorly examined
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