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Identification of aberrantly methylated genes in autism: The role of advanced paternal age  

Autism arises from mutations in the genome, but several studies have shown that many of these mutations occur de novo — that is, they are non-inherited mutations introduced during the parents' gamete production. Jay Gingrich at the New York State Psychiatric Institute and his colleagues plan to study a mouse model of autism to investigate whether advanced paternal age is linked to a higher frequency of genomic aberrations. Sperm cells are generated throughout life without a clear decrease in viability or health, but recent surveys have found that children of older fathers have a higher risk of developing several disorders, including autism. Gingrich and colleagues have developed a model system in which to study the effects of aging on male fertility and sperm fitness. For four years, they have bred female mice with either young or old male mice to generate distinct mouse lines. In preliminary studies, mice with older fathers show several behavioral traits, such as a fear of unfamiliar mice and objects, that are often observed in people with autism. Gingrich proposes that these mice are a natural model for autism, and aims to study how paternal age affects the brain structure and behavior of their offspring. How aging alters sperm viability remains unclear. One possibility is that, over time, sperm stem cells acquire genomic aberrations such as mutations or an abnormal pattern of DNA modifications such as methylation. DNA methylation and other epigenetic modifications change the activity of genes without altering the genetic sequence. These patterns would be maintained in the genome and passed on during stem cell division. But the many divisions over years of sperm production could weaken the fidelity of this replication, and incorrect patterns could cause abnormal gene expression in the offspring. To examine this possibility, Gingrich and colleagues plan to use an unbiased, high-throughput method to study the methylation patterns in genomes isolated from the brain tissue of mice with young or old fathers. They hope to find specific regions in the genome that are more susceptible to age-related mis-methylation and to identify nearby genes that could be responsible for the abnormal behavior in the pups of older male mice. The researchers then plan to determine whether these loci are atypically methylated — and so misregulated — in people with autism. Project Status
ONGOING

2010

Funder Simons Foundation
Fiscal Year Funding $374,835.28
Current Award Period 2007-2010
Project Number SFARI-07-17
Principal Investigator Gingrich, Jay
Received ARRA Funding? No
Strategic Plan Question Question 3: What Caused This To Happen And Can This Be Prevented? (Causes)
Subcategory Epigenetics
Strategic Plan Objective New! Green dot: Objective has greater than or equal to the recommended funding. 3SJ. Support at least three studies that focus on the role of epigenetics in the etiology of ASD, including studies that include assays to measure DNA methylations and histone modifications and those exploring how exposures may act on maternal or paternal genomes via epigenetic mechanisms to alter gene expression, by 2012. IACC Recommended Budget: $20,000,000 over 5 years.
Federal or Private? Private
Institution Research Foundation for Mental Hygiene, Inc.
State/Country New York
Web Link 1 Identification of aberrantly methylated genes in autism: The role of advanced paternal age (External web link)
Web Link 2 No URL available.
Web Link 3 No URL available.
New! History/Related Projects Identification of aberrantly methylated genes in autism: The role of advanced paternal age | $499,780.32 | 2009 | SFARI-07-17
Identification of aberrantly methylated genes in autism: The role of advanced paternal age | $499,780.32 | 2008 | Project number unavailable