Autism Gene Study Finds 7 New Risk Genes in Families
Author: University of California - Los Angeles Health Sciences
Published: 2023/07/31 - Updated: 2026/02/23
Publication Details: Peer-Reviewed, Experimental Study
Category Topic: Autism - Related Publications
Contents: Synopsis - Introduction - Main - Insights, Updates
Synopsis: This research, a peer-reviewed experimental study published in the Proceedings of the National Academy of Sciences, presents findings from the largest-ever genetic analysis of families with more than one child diagnosed with autism spectrum disorder. Led by UCLA researchers, the study performed whole genome sequencing on 4,551 individuals from 1,004 multiplex families and identified seven potential new autism risk genes while also uncovering evidence that language delay may be a core component of autism rather than a variable trait. The findings are particularly valuable for families affected by autism, disability advocates, and medical professionals because they shed light on how combinations of rare inherited mutations and common genetic variations interact to influence autism risk - offering a clearer picture of heritability that could shape future diagnostic criteria and genetic counseling - Disabled World (DW).
- Definition: Autism spectrum disorder (ASD)
Autism spectrum disorder (ASD) is a neurodevelopmental condition characterized by differences in social communication, interaction, and behavior, often accompanied by restricted or repetitive patterns of interest and activity. The spectrum nature of the disorder means it presents across a wide range of severity, with some individuals requiring substantial daily support and others living independently with minimal assistance. Autism is highly heritable, with research indicating that at least 50 percent of genetic risk comes from common genetic variations, while another 15 to 20 percent is attributed to spontaneous mutations or predictable inheritance patterns. Diagnosis is typically made in early childhood based on behavioral criteria outlined in the Diagnostic and Statistical Manual of Mental Disorders, though genetic research continues to refine the understanding of its biological underpinnings and may eventually contribute to earlier and more precise identification.
Introduction
New Genetic Clues Uncovered from Study of Families with Multiple Children Diagnosed with Autism
"The Contributions of Rare Inherited and Polygenic Risk to Asd in Multiplex Families" - Proceedings of the National Academy of Sciences.
Health researchers have published the largest-ever study of families with at least two children with autism, uncovering new risk genes and providing new insights into how genetics influence whether someone develops autism spectrum disorder.
The new study, published July 28 in the Proceedings of the National Academy of Sciences, also provides genetic evidence that language delay and dysfunction should be reconsidered as a core component of autism.
Main Content
Most genetic studies of autism have focused on families with one child affected by the neurodevelopmental disorder, sometimes excluding families with multiple affected children. As a result, few studies have examined the role of rare inherited variation or its interaction with the combined effect of multiple common genetic variations that contribute to the risk of developing autism.
"Study design is critical and not enough attention has been paid to studying families with more than one affected child," said lead study author Dr. Daniel Geschwind, the Gordon and Virginia MacDonald Distinguished Professor of Human Genetics, Neurology and Psychiatry at UCLA.
Autism is highly heritable: It is estimated at least 50% of genetic risk is predicted by common genetic variation and another 15-20% is due to spontaneous mutations or predictable inheritance patterns. The remaining genetic risk is yet to be determined.
For this study, researchers performed whole genome sequencing in 4,551 individuals from 1,004 families with at least two children diagnosed with autism. This group included 1,836 children with autism and 418 children without an autism diagnosis.
The researchers found seven potential genes that are predicted to increase the risk of autism: PLEKHA8, PRR25, FBXL13, VPS54, SLFN5, SNCAIP, and TGM1. This is remarkable because other studies have had to analyze much larger cohorts to identify a similar number of novel risk genes. This is because in this case, most of the new genes were supported by rare inherited DNA variations that were transmitted from parents to children with autism.
The researchers also examined polygenic risk, in which a combination of commonly found genetic variations can raise the likelihood of developing autism. They found children who inherit rare mutations from unaffected parents in combination with polygenic risk are more likely to have autism. This helps explains why parents who carry a single rare mutation may not show signs of autism even if their children do. It also lends support to the liability threshold model, a concept in behavioral genetics that holds there is an additive effect of genes that influences the probability that someone develops a certain trait.
In another important finding, children who had language delay had a higher likelihood of inheriting a polygenic score associated with autism, while there was not a similar relationship for children without language delays. This pattern was specific to autism and was not seen in other traits like educational attainment, schizophrenia or bipolar disorder, suggesting there's a link between the genetic risk for autism and language delay.
However, the most recent edition of the professional guidebook used by mental health providers to diagnose disorders - the Diagnostic and Statistical Manual of Mental Disorders, 5th Edition (DSM-5) - does not consider language delay a core autism symptom, citing the variability in language ability among people with autism.
"This association of general risk for ASD that was strongest in those with language delay suggests that language is actually a core component of ASD. This finding needs to be replicated in larger cohorts, especially those recruited more recently under DSM-5," Geschwind said.
Authors:
Other authors include Matilde Cirnigliaro,, Timothy Chang, Stephanie Arteaga, Elizabeth Ruzzo, Aaron Gordon, Lucy Bicks and Jennifer Lowe, all of UCLA; Laura Pérez-Cano of STALICLA DDS; and Jae-Yoon Jung and Dennis Wall of Stanford University. The authors declare no competing interests. See the study for funding information.
Article:
The contributions of rare inherited and polygenic risk to ASD in multiplex families; Matilde Cirnigliaro, Timothy S. Chang, Stephanie A. Arteaga, and Daniel H. Geschwind.
Insights, Analysis, and Developments
Editorial Note: What stands out about this UCLA-led study is not just the identification of seven new candidate genes but the broader implications for how autism is diagnosed and understood at the genetic level. By focusing on families with more than one affected child - a group that most large-scale genetic studies have overlooked - the researchers were able to detect rare inherited variants that would otherwise remain hidden in larger, less targeted cohorts. Perhaps most provocative is the finding that language delay appears genetically tied to autism risk, a conclusion that challenges the current DSM-5 framework and could eventually influence how clinicians evaluate and diagnose the disorder. For the disability and autism communities, this kind of research matters because it moves the conversation beyond surface-level behavioral observation toward a deeper, more precise understanding of what drives autism at the molecular level, which may in time lead to earlier identification and better-tailored support - Disabled World (DW).Attribution/Source(s): This peer reviewed publication was selected for publishing by the editors of Disabled World (DW) due to its relevance to the disability community. Originally authored by University of California - Los Angeles Health Sciences and published on 2023/07/31, this content may have been edited for style, clarity, or brevity.