Risks for psychosis could be identified through tell-tale signs in IQ, memory or social intelligence tests
The study’s findings, led by NUI Galway Professor Gary Donohoe, have been published in the leading international peer-reviewed journal JAMA Psychiatry
A new study has revealed that genetic variants associated with risk for schizophrenia and other psychotic disorders are also associated with performance on measures of IQ, memory and social cognition. The discovery was made by NUI Galway Professor of Psychology Gary Donohue, in association with colleagues from Trinity College, Dublin and has just been published in leading journal, JAMA psychiatry.
Professor Gary Donohoe said: “These findings support the view that the genetics of schizophrenia and cognition overlap. The findings also raise the possibility that the risk of developing schizophrenia may be identified by changes in cognitive ability; tell-tale signs found in IQ, memory or social intelligence tests. These cognitive deficits often appear before the emergence of clinical symptoms and go on to predict individual levels of disability. Understanding how genetic variants contribute to this aspect of disability, both individually and interaction, is an important step towards understanding the underlying biology and developing better and more personalized treatments.”
Schizophrenia or bipolar disorder affects about one in 50 Irish adults. Treatments are available, but the successful treatment rates vary. It is as yet unknown what causes or triggers schizophrenia. Disability in these disorders is significantly affected by difficulties with a wide range of neuropsychological problems, including general cognitive ability, memory function, and cognitive abilities relevant to engaging and dealing with others.
Dr. April Hargreaves and Dr. Kristen Nicodemus were joint first authors on the paper. The study also included contributions from a broad network of collaborators in Europe and the US. Co-first author Dr. Hargreaves said ‘what is perhaps most novel about the study is the move from focusing on single genetic variants to considering the effects of multiple, related risk variants at the same time. The fact that we were able to account for a greater proportion of the variance in cognitive performance by looking at multiple variants, suggests that this approach represents an important next step in modeling the genetic complexity of cognition and identifying risk factors for psychosis’.
The study, which was funded by Science Foundation Ireland and the Health Research Board, assessed performance on a number of cognitive functions known to be affected in psychosis. A total of 424 patients participated in the study, including 340 with schizophrenia or schizoaffective disorder, and 83 with bipolar or major depressive disorder with psychotic features. Patients were given individual scores based on their loading for genetic variants interacting with ZNF804A, the first genome wide significant variant to be identified for schizophrenia.
Across patient groups, higher scores on this ZNF804A interaction pathway were associated with poorer performance on multiple cognitive measures, including both general cognitive ability and a measure social cognition, often popularly referred to as social intelligence.