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Early Transcriptional Changes Linked to Naturally Occurring Huntington's Disease Mutations in Neural Derivatives of Human Embryonic Stem Cells

Overview
Journal Hum Mol Genet
Specialties Genetics
Molecular Biology
Date 2012 Jun 9
PMID 22678061
Citations 38
Authors
Maxime Feyeux
Fany Bourgois-Rocha
Amanda Redfern
Peter Giles
Nathalie Lefort
Sophie Aubert
Caroline Bonnefond
Aurore Bugi
Marta Ruiz
Nicole Deglon
Lesley Jones
Marc Peschanski
Nicholas D Allen
Anselme L Perrier
Affiliations
Soon will be listed here.
Abstract

Huntington's disease (HD) is characterized by a late clinical onset despite ubiquitous expression of the mutant gene at all developmental stages. How mutant huntingtin impacts on signalling pathways in the pre-symptomatic period has remained essentially unexplored in humans due to a lack of appropriate models. Using multiple human embryonic stem cell lines derived from blastocysts diagnosed as carrying the mutant huntingtin gene by pre-implantation genetic diagnosis, we explored early developmental changes in gene expression using differential transcriptomics, combined with gain and loss of function strategies. We demonstrated a down-regulation of the HTT gene itself in HD neural cells and identified three genes, the expression of which differs significantly in HD cells when compared with wild-type controls, namely CHCHD2, TRIM4 and PKIB. Similar dysregulation had been observed previously for CHCDH2 and TRIM4 in blood cells from patients. CHCHD2 is involved in mitochondrial function and PKIB in protein kinase A-dependent pathway regulation, which suggests that these functions may be precociously impacted in HD.

Citing Articles

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Louessard M, Cailleret M, Jarrige M, Bigarreau J, Lenoir S, Dufour N J Huntingtons Dis. 2024; 13(1):41-53.

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