Intergenerational and striatal CAG repeat instability in Huntington's disease knock-in mice involve different DNA repair genes

Intergenerational and striatal CAG repeat instability in Huntington's disease knock-in mice involve different DNA repair genes

Modifying the length of the Huntington's disease (HD) CAG repeat, the major determinant of age of disease onset, is an attractive therapeutic approach. To explore this we are investigating mechanisms of intergenerational and somatic HD CAG repeat instability. Here, we have crossed HD CAG knock-...

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Main Authors: Ella Dragileva, Audrey Hendricks, Allison Teed, Tammy Gillis, Edith T. Lopez, Errol C. Friedberg, Raju Kucherlapati, Winfried Edelmann, Kathryn L. Lunetta, Marcy E. MacDonald, Vanessa C. Wheeler
Format: Article
Language:English
Published: Elsevier 2009-01-01
Series:Neurobiology of Disease
Subjects:
Huntington's disease
Trinucleotide
Instability
Repeat
Striatum
Repair
Online Access:http://www.sciencedirect.com/science/article/pii/S0969996108002234
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spelling doaj-af291bf522e94f59b0fc514184565cec2021-03-20T04:56:33ZengElsevierNeurobiology of Disease1095-953X2009-01-013313747Intergenerational and striatal CAG repeat instability in Huntington's disease knock-in mice involve different DNA repair genesElla Dragileva0Audrey Hendricks1Allison Teed2Tammy Gillis3Edith T. Lopez4Errol C. Friedberg5Raju Kucherlapati6Winfried Edelmann7Kathryn L. Lunetta8Marcy E. MacDonald9Vanessa C. Wheeler10Molecular Neurogenetics Unit, Center for Human Genetic Research, Massachusetts General Hospital, Boston MA 02114, USADepartment of Biostatistics, Boston University School of Public Health, Boston MA 02118, USAMolecular Neurogenetics Unit, Center for Human Genetic Research, Massachusetts General Hospital, Boston MA 02114, USAMolecular Neurogenetics Unit, Center for Human Genetic Research, Massachusetts General Hospital, Boston MA 02114, USAMolecular Neurogenetics Unit, Center for Human Genetic Research, Massachusetts General Hospital, Boston MA 02114, USADepartment of Pathology, UT Southwestern Medical Center, Dallas, TX 75390, USAHarvard Partners Center for Genetics and Genomics, 65 Landsdowne Street, Cambridge, MA 02139, USA; Department of Genetics, Harvard Medical School, 77 Avenue Louis Pasteur, Boston, MA, 02115, USADepartment of Cell Biology, Albert Einstein College of Medicine, Bronx, NJ 10461, USADepartment of Biostatistics, Boston University School of Public Health, Boston MA 02118, USAMolecular Neurogenetics Unit, Center for Human Genetic Research, Massachusetts General Hospital, Boston MA 02114, USAMolecular Neurogenetics Unit, Center for Human Genetic Research, Massachusetts General Hospital, Boston MA 02114, USA; Corresponding author. Fax: +617 643 3203.Modifying the length of the Huntington's disease (HD) CAG repeat, the major determinant of age of disease onset, is an attractive therapeutic approach. To explore this we are investigating mechanisms of intergenerational and somatic HD CAG repeat instability. Here, we have crossed HD CAG knock-in mice onto backgrounds deficient in mismatch repair genes, Msh3 and Msh6, to discern the effects on CAG repeat size and disease pathogenesis. We find that different mechanisms predominate in inherited and somatic instability, with Msh6 protecting against intergenerational contractions and Msh3 required both for increasing CAG length and for enhancing an early disease phenotype in striatum. Therefore, attempts to decrease inherited repeat size may entail a full understanding of Msh6 complexes, while attempts to block the age-dependent increases in CAG size in striatal neurons and to slow the disease process will require a full elucidation of Msh3 complexes and their function in CAG repeat instability.http://www.sciencedirect.com/science/article/pii/S0969996108002234Huntington's diseaseTrinucleotideInstabilityRepeatStriatumRepair
collection DOAJ
language English
format Article
sources DOAJ
author Ella Dragileva
Audrey Hendricks
Allison Teed
Tammy Gillis
Edith T. Lopez
Errol C. Friedberg
Raju Kucherlapati
Winfried Edelmann
Kathryn L. Lunetta
Marcy E. MacDonald
Vanessa C. Wheeler
spellingShingle Ella Dragileva
Audrey Hendricks
Allison Teed
Tammy Gillis
Edith T. Lopez
Errol C. Friedberg
Raju Kucherlapati
Winfried Edelmann
Kathryn L. Lunetta
Marcy E. MacDonald
Vanessa C. Wheeler
Intergenerational and striatal CAG repeat instability in Huntington's disease knock-in mice involve different DNA repair genes
Neurobiology of Disease
Huntington's disease
Trinucleotide
Instability
Repeat
Striatum
Repair
author_facet Ella Dragileva
Audrey Hendricks
Allison Teed
Tammy Gillis
Edith T. Lopez
Errol C. Friedberg
Raju Kucherlapati
Winfried Edelmann
Kathryn L. Lunetta
Marcy E. MacDonald
Vanessa C. Wheeler
author_sort Ella Dragileva
title Intergenerational and striatal CAG repeat instability in Huntington's disease knock-in mice involve different DNA repair genes
title_short Intergenerational and striatal CAG repeat instability in Huntington's disease knock-in mice involve different DNA repair genes
title_full Intergenerational and striatal CAG repeat instability in Huntington's disease knock-in mice involve different DNA repair genes
title_fullStr Intergenerational and striatal CAG repeat instability in Huntington's disease knock-in mice involve different DNA repair genes
title_full_unstemmed Intergenerational and striatal CAG repeat instability in Huntington's disease knock-in mice involve different DNA repair genes
title_sort intergenerational and striatal cag repeat instability in huntington's disease knock-in mice involve different dna repair genes
publisher Elsevier
series Neurobiology of Disease
issn 1095-953X
publishDate 2009-01-01
description Modifying the length of the Huntington's disease (HD) CAG repeat, the major determinant of age of disease onset, is an attractive therapeutic approach. To explore this we are investigating mechanisms of intergenerational and somatic HD CAG repeat instability. Here, we have crossed HD CAG knock-in mice onto backgrounds deficient in mismatch repair genes, Msh3 and Msh6, to discern the effects on CAG repeat size and disease pathogenesis. We find that different mechanisms predominate in inherited and somatic instability, with Msh6 protecting against intergenerational contractions and Msh3 required both for increasing CAG length and for enhancing an early disease phenotype in striatum. Therefore, attempts to decrease inherited repeat size may entail a full understanding of Msh6 complexes, while attempts to block the age-dependent increases in CAG size in striatal neurons and to slow the disease process will require a full elucidation of Msh3 complexes and their function in CAG repeat instability.
topic Huntington's disease
Trinucleotide
Instability
Repeat
Striatum
Repair
url http://www.sciencedirect.com/science/article/pii/S0969996108002234
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