Genetic Contribution of Synapse-Associated Protein 97 to Orbitofrontal-Striatal-Thalamic Circuitry Connectivity Changes in First-Episode Schizophrenia.

Xusan Xu,You Li,Susu Xiong,Jiawu Fu,Dong Lv,Bin He,Juda Lin,Guoda Ma,Dongjian Zhu,Shucun Luo,Wubiao Chen,Chunmei Liang,Xiaoxia Wang,Xudong Luo,Jingwen Yin,Yajun Wang,Zhongqiu Lin ,Xin Wen ,Zhongmin Dai ,Zhen Luo

doi:10.3389/fpsyt.2021.691007

Abstract

Functional and structural disturbances in the orbitofrontal–striatal–thalamic circuitry are thought to be associated with mental symptoms and neurocognitive impairments in schizophrenia. This study tested whether synapse-associated protein 97 (SAP97), a reasonable candidate gene for schizophrenia, is related to orbitofrontal–striatal–thalamic connection changes in first-episode schizophrenia (FES) patients and the clinical performance of schizophrenic patients by affecting this integrity. Fifty-two FES patients and 52 matched healthy controls were recruited. All subjects underwent genotyping via the improved multiplex ligation detection reaction technique and scanning with magnetic resonance imaging (MRI) to provide orbitofrontal–striatal–thalamic functional and structural imaging data. A two-way analysis of covariance model was employed to examine abnormal brain connectivities, and Spearman correlations were applied to estimate the relationships between brain connectivity and clinical manifestations. In the FES group, those with the SAP97 rs3915512 TT genotype showed lower structural and functional connectivity than A allele carriers between the orbitofrontal gyrus and striatum/thalamus. In the FES group, negative correlations were found between resting-state functional connectivity (RSFC) in the orbitofrontal gyrus and thalamus, and positive symptoms between structural connections in the orbitofrontal gyrus and striatum and cognitive functions, and positive correlations were suggested between RSFC in the orbitofrontal gyrus and thalamus and negative symptoms. Our findings suggested that the SAP97 rs3915512 polymorphism may be involved in mental symptoms and cognitive dysfunction in FES patients by influencing structural and functional connectivity of the orbitofrontal–striatal and orbitofrontal–thalamic regions.

Highlights

Current thinking suggests that schizophrenia relates to disturbances in neural connectivity [1]
Reduced mRNA [4] and protein expression [5] of synapseassociated protein 97 (SAP97) in schizophrenic patients indicated that the SAP97 gene may play a potential role in schizophrenia
Our previous study indicated that SAP97 gene polymorphisms were related to cognitive dysfunction and negative symptoms of schizophrenia [7, 8]

Summary

Introduction

Current thinking suggests that schizophrenia relates to disturbances in neural connectivity [1]. Further work is needed to determine whether connectivity changes are related to genetic risk for schizophrenia. Reduced mRNA [4] and protein expression [5] of synapseassociated protein 97 (SAP97) in schizophrenic patients indicated that the SAP97 gene may play a potential role in schizophrenia. Our previous study indicated that SAP97 gene polymorphisms (rs3915512 and other polymorphisms) were related to cognitive dysfunction and negative symptoms of schizophrenia [7, 8]. We speculate that SAP97 may be a risk gene that can cause disrupted neural connectivity in schizophrenia and that SAP97 rs3915512 is involved

Methods

Results

Conclusion