Is dyslexia genetic? Yale study unravels genetics of dyslexia and language impairment

A Yale study of the genetic origins of dyslexia and other learning disabilities could allow for earlier diagnoses and more successful interventions.
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A new study of the genetic origins of dyslexia and other learning disabilities could allow for earlier diagnoses and more successful interventions, according to researchers at Yale School of Medicine. Many students now are not diagnosed until high school, at which point treatments are less effective.

The study is published online and in the July print issue of the American Journal of Human Genetics. Senior author Dr. Jeffrey R. Gruen, professor of pediatrics, genetics, and investigative medicine at Yale, and colleagues analyzed data from more than 10,000 children born in 1991-1992 who were part of the Avon Longitudinal Study of Parents and Children (ALSPAC) conducted by investigators at the University of Bristol in the United Kingdom.

Gruen and his team used the ALSPAC data to unravel the genetic components of reading and verbal language. In the process, they identified genetic variants that can predispose children to dyslexia and language impairment, increasing the likelihood of earlier diagnosis and more effective interventions.

Dyslexia and language impairment are common learning disabilities that make reading and verbal language skills difficult. Both disorders have a substantial genetic component, but despite years of study, determining the root cause had been difficult.

In previous studies, Gruen and his team found that dopamine-related genes ANKK1 and DRD2 are involved in language processing. In further non-genetic studies, they found that prenatal exposure to nicotine has a strong negative affect on both reading and language processing. They had also previously found that a gene called DCDC2 was linked to dyslexia.

In this new study, Gruen and colleagues looked deeper within the DCDC2 gene to pinpoint the specific parts of the gene that are responsible for dyslexia and language impairment. They found that some variants of a gene regulator called READ1 (regulatory element associated with dyslexia1) within the DCDC2 gene are associated with problems in reading performance while other variants are strongly associated with problems in verbal language performance.

Gruen said these variants interact with a second dyslexia risk gene called KIAA0319. “When you have risk variants in both READ1 and KIAA0319, it can have a multiplier effect on measures of reading, language, and IQ,” he said. “People who have these variants have a substantially increased likelihood of developing dyslexia or language impairment.”

These findings are helping us to identify the pathways for fluent reading, the components of those pathways; and how they interact,” said Gruen. “We now hope to be able to offer a pre-symptomatic diagnostic panel, so we can identify children at risk before they get into trouble at school. Almost three-quarters of these children will be reading at grade level if they get early intervention, and we know that intervention can have a positive lasting effect.”

Other authors on the study include Natalie R. Powers, John D. Eicher, Falk Butter, Yong Kong, Laura L. Miller, Susan M. Ring, and Matthias Mann.

This work was supported by the UK medical research council, the Wellcome Trust (092731), the Yale Center for Genome Analysis; and the National Institutes of Health (R01 NS043530 and F31 DC012270).

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Karen N. Peart: karen.peart@yale.edu, 203-980-2222