Utah researchers confirm chromosome may harbor autism gene
Data strikingly similar to Finnish studiesUsing technology that allows DNA from thousands of genes to be collected and surveyed on a 3 x 1½-inch chip, University of Utah medical researchers have confirmed that a region on a single chromosome probably harbors a gene that causes autism. The researchers at the U School of Medicine made the finding by tracing variations in the DNA of an extended Utah family that has a high occurrence of the disorder and whose members are descended from one couple.
As part of the study, the researchers also ruled out one gene that appeared to be a good candidate for being linked to autism. They're now looking at other genes for a connection to the disorder.
Published in Human Heredity online, the study is part of the Utah Autism Research Project. The researchers are interested in finding more families with a history of autism to join the study.
The just-published research confirms Finnish studies of families that linked autism to the same region on chromosome 3, according to principal author Hilary Coon, Ph.D., research associate professor of psychiatry. In fact, the results of the U of U research were surprisingly similar to the Finnish studies, Coon said.
"It was remarkable to confirm the Finnish studies," she said. "Our results were so close to their evidence, we thought it was important."
Autism is a behavioral disorder that strikes before age 3 and is characterized by impaired ability in social interactions and communication. Those with autism also display repetitive behaviors and interests.
The study involved 31 members of a family of Northern European ancestry, seven of whom have autism or an autism-related disorder. The family members are part of the Utah Population Database, a computerized set of the genealogies of 170,000 Utah families comprising 1.6 million people. Information on some families goes back to the state's pioneer founders.
The researchers used a gene chip similar to a microarray to search for genetic markers of autism.
They used a coated glass chip from Affymetrix, Inc. This chip has 10,000 short segments of DNA with known gene sequence variations, called single nucleotide polymorphisms (SNPs), attached to 3/8 by 3/8-inch area. The DNA strands of the family members were broken up and then bonded to the DNA on the chip, allowing researchers to compare the variations in the SNPs of the different DNA on an extremely fine scale.
The chance of the same variants of SNPs in a particular region on a chromosome being passed through several generations from a founding couple to multiple affected family members is slight. When such identical blocks of SNPs are found, the chromosomal region often is a good candidate for being linked to a disease.
Other studies, including the Finnish ones, have found a high degree of evidence linking chromosome 3 to autism, so Coon and the other U researchers began their search on that chromosome. The first region of the chromosome they looked at contained 106 SNPs, 70 of which strongly indicated a gene in that region being linked to autism.
One gene, FXR1, appeared to be a likely candidate for a link to autism. FXR1 is similar to the X-chromosome Fragile X gene, FMR1. Mutations in FMR1 cause Fragile X Syndrome, an inherited condition that can cause mental impairments ranging from learning disabilities to severe cognitive problems. Fragile X syndrome has been shown to overlap with autism, and because FXR1 is similar to the gene that causes the syndrome, U researchers suspected FXR1 might be linked to autism. But after analyzing the entire coding sequence of FXR1, the researchers found no alterations in the gene likely to contribute to autism.
Based on statistical evidence, they're now looking at other genes. But evidence that a gene on a particular region of chromosome 3 is linked to the disorder doesn't preclude other genes from being a cause of autism, according to Coon. All in all, the researchers have a daunting search ahead of them.
"We're just looking for the needle in the haystack," Coon said.
Along with the original family, the U researchers are studying two more families with autism in some members, and they'd like to find others in which the disorder occurs. Large and small families with individual or multiple cases of autism are welcome to join. Those interested can call (801) 585-9098.
Other authors of the study are: Nori Matsunami, Jeff Stevens, Judith S. Miller, Ph.D, assistant professor of psychiatry, and Carmen Pingree, all with the Neurodevelopmental Genetics Project in the Department of Psychiatry; Nicola J. Camp, Ph.D., assistant professor of medical informatics; Alun Thomas, Ph.D., professor of medical informatics; Janet E. Lainhart, M.D., associate professor of psychiatry; Mark F. Leppert, professor and chair of Human Genetics; and William M. McMahon, M.D., professor of psychiatry and principal investigator of the Utah Autism Research Project.
The University of Utah Health Sciences Center is internationally regarded for its research and clinical expertise in the health sciences. Through its four major colleges --the School of Medicine; College of Pharmacy; College of Nursing; and College of Health--the Health Sciences Center conducts leading-edge research in cancer, genetics, pharmaceutical sciences, and numerous other areas of medicine. The Health Sciences Center also is the major training ground for Utah's physicians, pharmacists, nurses, therapists, and other health-care professionals.
Hilary Coon, Ph.D, 801-585-3068
William M. McMahon, M.D.,
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Last reviewed: By John M. Grohol, Psy.D. on 30 Apr 2016
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