This title appears in the Scientific Report : 2011 

Cognitive state and connectivity effects of the genome-wide significant psychosis variant in ZNF804A.
Esslinger, C.
Kirsch, P. / Haddad, L. / Mier, D. / Sauer, C. / Erk, S. / Schnell, K. / Arnold, C. / Witt, S.H. / Rietschel, M. / Cichon, S. / Walter, H. / Meyer-Lindenberg, A.
Strukturelle und funktionelle Organisation des Gehirns; INM-1
NeuroImage, 54 (2011) S. 2514 - 2523
Orlando, Fla. Academic Press 2011
2514 - 2523
Journal Article
Connectivity and Activity
Funktion und Dysfunktion des Nervensystems
NeuroImage 54
Please use the identifier: in citations.
Alterations of connectivity are central to the systems-level pathophysiology of schizophrenia. One of the best-established genome-wide significant risk variants for this highly heritable disorder, the rs1344706 single nucleotide polymorphism in ZNF804A, was recently shown to modulate connectivity in healthy carriers during working memory (WM) in a pattern mirroring that which was found in overt disease. However, it was unclear whether this finding is specific to WM or if it is present regardless of cognitive state. Therefore, we examined genotype effects on connectivity in healthy carriers during rest and an emotion processing task without WM component. 111 healthy German subjects performed a battery of functional imaging tasks. Functional connectivity with the right dorsolateral prefrontal cortex during rest and an implicit emotion recognition task was determined using the seed voxel method and compared to results during WM. During rest and during the emotional task, a pattern of reduced interhemispheric prefrontal connectivity with increasing number of rs1344706 risk alleles could be seen that was close to identical to that during WM, suggesting a state-independent influence of the genetic variant on interhemispheric processing, possibly through structural effects. By contrast, the abnormal prefronto-hippocampal connectivity was only seen during the WM task, indicating a degree of task specificity in agreement with prior results in patients with schizophrenia. Our findings confirm a key role for disturbed functional connectivity in the genetic risk architecture of schizophrenia and identify cognitive state-dependent and independent components with regard to WM function.