Neural Mechanisms of a Genome-Wide Supported Psychosis Variant

Christine Esslinger; Henrik Walter; Peter Kirsch; Susanne Erk; Knut Schnell; Claudia Arnold; Leila Haddad; Daniela Mier; Carola Opitz von Boberfeld; Kyeon Raab; Stephanie H. Witt; Marcella Rietschel; Sven Cichon; Andreas Meyer‐Lindenberg

doi:10.1126/science.1167768

Neural Mechanisms of a Genome-Wide Supported Psychosis Variant

Christine Esslinger(Heidelberg University), Henrik Walter(University of Bonn), Peter Kirsch(Heidelberg University), Susanne Erk(University of Bonn), Knut Schnell(University of Bonn), Claudia Arnold(University of Bonn), Leila Haddad(Heidelberg University), Daniela Mier(Heidelberg University), Carola Opitz von Boberfeld(University of Bonn), Kyeon Raab(Heidelberg University), Stephanie H. Witt(Heidelberg University), Marcella Rietschel(Heidelberg University), Sven Cichon(Life & Brain (Germany)), Andreas Meyer‐Lindenberg(Heidelberg University)

Science

April 30, 2009

10.1126/science.1167768

Cited by 405

Abstract

Schizophrenia is a devastating, highly heritable brain disorder of unknown etiology. Recently, the first common genetic variant associated on a genome-wide level with schizophrenia and possibly bipolar disorder was discovered in ZNF804A (rs1344706). We show, by using an imaging genetics approach, that healthy carriers of rs1344706 risk genotypes exhibit no changes in regional activity but pronounced gene dosage-dependent alterations in functional coupling (correlated activity) of dorsolateral prefrontal cortex (DLPFC) across hemispheres and with hippocampus, mirroring findings in patients, and abnormal coupling of amygdala. Our findings establish disturbed connectivity as a neurogenetic risk mechanism for psychosis supported by genome-wide association, show that rs1344706 or variation in linkage disequilibrium is functional in human brain, and validate the intermediate phenotype strategy in psychiatry.

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