Publication: A mouse model of ATR-Seckel shows embryonic replicative stress and accelerated aging.
Loading...
Identifiers
Publication date
Advisors
Journal Title
Journal ISSN
Volume Title
Publishers
Metrics
Export
Abstract
Although DNA damage is considered a driving force for aging, the nature of the damage that arises endogenously remains unclear. Replicative stress, a source of endogenous DNA damage, is prevented primarily by the ATR kinase. We have developed a mouse model of Seckel syndrome characterized by a severe deficiency in ATR. Seckel mice show high levels of replicative stress during embryogenesis, when proliferation is widespread, but this is reduced to marginal amounts in postnatal life. In spite of this decrease, adult Seckel mice show accelerated aging, which is further aggravated in the absence of p53. Together, these results support a model whereby replicative stress, particularly in utero, contributes to the onset of aging in postnatal life, and this is balanced by the replicative stress-limiting role of the checkpoint proteins ATR and p53.
Description
Keywords
MeSH Terms
DNA Replication Stress, Physiological Abnormalities, Multiple Aging Alleles Animals Apoptosis Ataxia Telangiectasia Mutated Proteins Brain Cell Cycle Proteins DNA Damage DNA Repair DNA-Activated Protein Kinase DNA-Binding Proteins Disease Models, Animal Embryo, Mammalian Fibroblasts Humans Mice Nuclear Proteins Phenotype Progeria Protein Kinase Inhibitors Protein Serine-Threonine Kinases Syndrome Tumor Suppressor Protein p53
DeCS Terms
Bibliographic citation
Nat Genet . 2009;41(8):891-8.