June 21, 2012 in Genetics A pioneering report of genome-wide
gene expression in autism spectrum disorders (ASDs) finds genetic changes that
help explain why one person has an ASD and another does not. The study,
published by Cell Press on June 21 in
The American Journal of Human Genetics, pinpoints ASD risk factors by comparing
changes in gene expression with DNA mutation data in the same individuals. This
innovative approach is likely to pave the way for future personalized medicine,
not just for ASD but also for any disease with a genetic component. ASDs are a
heterogeneous group of developmental conditions characterized by social
deficits, difficulty communicating, and repetitive behaviors. ASDs are thought
to be highly heritable, meaning that they run in families. However, the
genetics of autism are complex. Researchers have found rare changes in the
number of copies of defined genetic regions that associate with ASD. Although
there are some hot-spot regions containing these alterations, very few genetic
changes are exactly alike. Similarly, no two autistic people share the exact
same symptoms. To discover how these genetic changes might affect gene
transcription and, thus, the presentation of the disorder, Rui Luo, a graduate
student in the Geschwind lab at UCLA, studied 244 families in which one child
(the proband) was affected with an ASD and one was not. In addition to
identifying several potential new regions where copy-number variants (CNVs) are
associated with ASDs, Geschwind's team found genes within these regions to be
significantly misregulated in ASD children compared with their unaffected
siblings. "Strikingly, we observed a higher incidence of haploinsufficient
genes in the rare CNVs in probands than in those of siblings, strongly
indicating a functional impact of these CNVs on expression," says
Geschwind. Haploinsuffiency occurs when only one copy of a gene is functional;
the result is that the body cannot produce a normal amount of protein. The
researchers also found a significant enrichment of misexpressed genes in
neural-related pathways in ASD children. Previous research has found that these
pathways include other genetic variants associated with autism, which Geschwind
explains further legitimizes the present findings.
No comments:
Post a Comment