New research, which features in the journal Nature Genetics, identifies 12 DNA
segments that may raise the risk of developing attention deficit hyperactivity
disorder.
A DNA analysis reveals the genetic segments that heighten ADHD risk.
For the first time, researchers have conducted a large
genetic analysis of attention deficit hyperactivity disorder (ADHD), which is a condition that
reportedly affects around 6 million children in the United
States.
Benjamin M. Neale from the Harvard Medical School in Boston,
MA, Anders D. Børglum from Aarhus University in Denmark, and Stephen V. Faraone
from the State University of New York led the international team working on
this research.
As the authors explain in their paper, ADHD is "a highly heritable
childhood behavioral disorder" that affects 5 percent of children in the
U.S. but also 2.5 percent of adults.
As it is a "highly heritable" disorder, there are
numerous genetic variants that raise the risk of ADHD. Although researchers
believe that 74 percent of
ADHD risk is genetic, they have not yet firmly linked any genes with the
disorder.
In this context, Neale's team set out to examine the genome
of over 50,000 people across the globe, including more than 20,000 people with
an ADHD diagnosis. In total, they analyzed about 10 million genetic loci.
Study is first to find 12 genetic
locations
Study co-author Bru Cormand, who is also the head of the
Research Group on Neurogenetics at the University of Barcelona in Spain, states
that the team found common genetic variants, called single nucleotide
polymorphisms (SNPs), that account for "21 percent of the total ADHD
genetics
"In addition," Cormand continues, "most
genetic alterations that were identified are found in regions of the genome
that [have remained throughout] evolution, which highlights [their] functional
relevance."
Specifically, the researchers
identified 12 genomic segments that could make a person susceptible to ADHD.
Many of the genetic changes that ADHD involves affect the expression of certain
genes in the brain, say the researchers.
For instance, one of the DNA fragments corresponds to FOXP2
— a gene that plays a key role in human language development. FOXP2 encodes a
protein that helps create neural synapses and thus facilitates learning.
The study found a second gene called DUSP6. This gene
contributes to the regulation of dopamine, a neurotransmitter that makes
learning possible.
Finally, the researchers also identified the SEMA6D gene as
one that seems to raise ADHD risk. SEMA6D expression occurs during the
development of the embryo, and some researchers believe that it helps develop
neural branches.
Overall, the study found that ADHD shares a genetic
background with several other psychiatric and non-psychiatric conditions.
"[The]
results reveal a genetic overlap between ADHD and major depression, anorexia, level of education, obesity,
reproductive success, smoking, or insomnia, among others."
Bru Cormand
"[T]his study reinforces [...] the idea that ADHD is a
disorder with a solid biological basis, where genetics mean[s] a lot,"
adds the author.
This study is the first to start identifying the specific
genes that relate to ADHD risk.
"These results show the importance of promoting large
scale-studies — which [are] only possible through big international consortiums
— to explore the genetic basis of complex brain diseases," Cormand
concludes.
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