DYRK1A-dosage Imbalance Perturbs NRSF/REST Levels, Deregulating Pluripotency and Embryonic Stem Cell Fate in Down Syndrome

Overview

Journal Am J Hum Genet

Publisher Cell Press

Specialty Genetics

Date 2008 Sep 6

PMID 18771760

Citations 72

Authors

Claudia Canzonetta

Claire Mulligan

Samuel Deutsch

Sandra Ruf

Aideen ODoherty

Robert Lyle

Christelle Borel

Nathalie Lin-Marq

Frederic Delom

Jurgen Groet

Felix Schnappauf

Serena De Vita

Sharon Averill

John V Priestley

Joanne E Martin

Janet Shipley

Gareth Denyer

Charles J Epstein

Cristina Fillat

Xavier Estivill

Victor L J Tybulewicz

Elizabeth M C Fisher

Stylianos E Antonarakis

Dean Nizetic

Affiliations

Soon will be listed here.

Abstract

Down syndrome (DS) is the most common cause of mental retardation. Many neural phenotypes are shared between DS individuals and DS mouse models; however, the common underlying molecular pathogenetic mechanisms remain unclear. Using a transchromosomic model of DS, we show that a 30%-60% reduced expression of Nrsf/Rest (a key regulator of pluripotency and neuronal differentiation) is an alteration that persists in trisomy 21 from undifferentiated embryonic stem (ES) cells to adult brain and is reproducible across several DS models. Using partially trisomic ES cells, we map this effect to a three-gene segment of HSA21, containing DYRK1A. We independently identify the same locus as the most significant eQTL controlling REST expression in the human genome. We show that specifically silencing the third copy of DYRK1A rescues Rest levels, and we demonstrate altered Rest expression in response to inhibition of DYRK1A expression or kinase activity, and in a transgenic Dyrk1A mouse. We reveal that undifferentiated trisomy 21 ES cells show DYRK1A-dose-sensitive reductions in levels of some pluripotency regulators, causing premature expression of transcription factors driving early endodermal and mesodermal differentiation, partially overlapping recently reported downstream effects of Rest +/-. They produce embryoid bodies with elevated levels of the primitive endoderm progenitor marker Gata4 and a strongly reduced neuroectodermal progenitor compartment. Our results suggest that DYRK1A-mediated deregulation of REST is a very early pathological consequence of trisomy 21 with potential to disturb the development of all embryonic lineages, warranting closer research into its contribution to DS pathology and new rationales for therapeutic approaches.

Citing Articles

Total cell N-glycosylation is altered during differentiation of induced pluripotent stem cells to neural stem cells and is disturbed by trisomy 21.

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Dysregulation of REST and its target genes impacts the fate of neural progenitor cells in down syndrome.

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Sex-specific developmental alterations in DYRK1A expression in the brain of a Down syndrome mouse model.

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REST Is Not Resting: REST/NRSF in Health and Disease.

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