Psychopathological manifestations and cognitive impairments are core features of psychotic disorders. Polygenic risk scores (PRS) offer insights into the relationships between genetic vulnerability, symptomatology, and cognitive impairments. This study used a network analysis to explore the connections between PRS, cognition, psychopathology, and overall functional outcomes in individuals experiencing a first episode of psychosis (FEP). The study sample comprised 132 patients with FEP. Genetic data were used to construct PRS for mental disorders and cognitive traits via PRS-continuous shrinkage. We conducted comprehensive clinical and neuropsychological assessments at 2 months post-diagnosis and again at a 2-year follow-up. A network analysis was performed to generate two distinct networks and their centrality indices, encompassing 19 variables across domains such as symptoms, cognition, functioning, and PRS. Variables were grouped within related domains, and stronger relationships were observed within domains than between them. PRS for schizophrenia showed weak negative associations with attention, working memory, and verbal memory, while PRS for cognitive performance showed weak positive associations with attention. Negative symptoms were negatively associated with functioning and verbal memory at both the 2-month and 2-year assessments, as well as with social cognition at 2 years. Poor functioning was moderately related to greater severity of Positive and Negative Syndrome Scale dimensions. This study identified pathways linking PRS, cognition, symptoms, and functioning, suggesting that genetic risk may serve as a marker of vulnerability and disorder progression. The findings also highlight the importance of considering genetic predispositions alongside clinical and cognitive factors to better understand the heterogeneity of psychotic disorders.
Keywords: Cognition; Network analysis; Polygenic risk scores; Psychopathology; Psychosis.
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