1. Allelic Variation inRGS4Impacts Functional and Structural Connectivity in the Human Brain
- Author
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Steven Sust, Daniel R. Weinberger, Beth A. Verchinski, Venkata S. Mattay, Michael F. Egan, Richard E. Straub, Joshua W. Buckholtz, Robyn A. Honea, Radhakrishna Vakkalanka, Joseph H. Callicott, Lukas Pezawas, Andreas Meyer-Lindenberg, and Bhaskar Kolachana
- Subjects
Adult ,Male ,Psychosis ,Postmortem studies ,Genotype ,Single-nucleotide polymorphism ,Neuropsychological Tests ,Polymorphism, Single Nucleotide ,White matter ,RGS4 ,Image Processing, Computer-Assisted ,medicine ,Humans ,Analysis of Variance ,Brain Mapping ,biology ,Working memory ,General Neuroscience ,Brain ,Articles ,Human brain ,medicine.disease ,Magnetic Resonance Imaging ,Oxygen ,Memory, Short-Term ,medicine.anatomical_structure ,biology.protein ,Female ,Postsynaptic signal transduction ,Psychology ,Neuroscience ,RGS Proteins - Abstract
Regulator of G-protein signaling 4 (RGS4) modulates postsynaptic signal transduction by affecting the kinetics of Gα-GTP binding. Linkage, association, and postmortem studies have implicated the gene encoding RGS4 (RGS4) as a schizophrenia susceptibility factor. Using a multimodal neuroimaging approach, we demonstrate that genetic variation inRGS4is associated with functional activation and connectivity during working memory in the absence of overt behavioral differences, with regional gray and white matter volume and with gray matter structural connectivity in healthy human subjects. Specifically, variation at oneRGS4single nucleotide polymorphism that has been associated previously with psychosis (rs951436) impacts frontoparietal and frontotemporal blood oxygenation level-dependent response and network coupling during working memory and results in regionally specific reductions in gray and white matter structural volume in individuals carrying the A allele. These findings suggest mechanisms in brain for the association ofRGS4with risk for psychiatric illness.
- Published
- 2007