"Our approach allowed us to model how multiple regions in the genome that increase risk for psychiatric disorders act in concert to affect molecular and cellular function that is relevant for neurodevelopment. This is exciting as it provides a novel framework to study genetic risk of psychiatric disease and shows that we can capture parts of the heritability of schizophrenia in a lab model system," said first author and PhD candidate Anil Ori, MSc.

Studying the disease biology and heritability of schizophrenia in model systems is challenging because of the genetic complexity of psychiatric illnesses. "[Large-scale population studies] have shown that psychiatric disorders are heritable traits in which hundreds if not thousands of genes throughout the human genome contribute to disease risk," said senior author Roel Ophoff, PhD. This accumulation of many small gene effects is referred to as polygenic risk.

"The translation of polygenic risk to neurobiology is one of the major scientific challenges for psychiatry in this era. This paper highlights a novel approach to begin this work," said John Krystal, MD, Editor ofBiological Psychiatry.

The new approach embraced the polygenic nature of schizophrenia by tracking changes in gene expression as human neural stem cells developed. By integrating the gene expression profiles with genome-wide schizophrenia risk data, first author Anil Ori and colleagues found that the differentially expressed genes during development were associated with schizophrenia polygenic risk. They replicated this finding in the study using a different sample.

According to the authors, the findings will help researchers narrow down the core disease processes that contribute to disease risk. In the study, the genes primarily responsible for the association with disease risk were involved in synaptic function -- the means by which cells communicate and transmit signals through the brain.

"Establishing this platform for further study has great potential benefit," said Mr. Ori. Now that the study has established in vitro neural development as a model for psychiatric disease, researchers can tweak the model to investigate how different environments might affect disease risk, and use this to understand the biology of mental illnesses.

”的大规模基因研究精神病学说orders will continue to expand, our study provides a valuable genomic tool to help investigate and understand how risk that is distributed across the genome contributes to the etiology of psychiatric disorders," said Dr. Ophoff.