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Identification of genetic determinants of schizophrenia related phenotypes

$523,916R01FY2013MHNIH

Johns Hopkins University, Baltimore MD

Investigators

Linked publications, trials & patents

Abstract

DESCRIPTION (provided by applicant): The goal of the proposed study is to identify and functionally characterize genetic variation that physiologically influences basic cognitive phenotypes. The phenotypes of interest measure basic cognitive performance indexes, reflecting the function of well characterized neuronal circuits. They are often impaired in neuropsychiatric disorders like schizophrenia, bipolar disorder, autism, attention deficit disorder, Huntington's disease and others. We propose to use a pre-existing sample of over 2,000 young healthy males with cognitive performance data and the publicly available sample from the Consortium on the Genetics of Endophenotypes in Schizophrenia (COGS) for an efficient three stage genome wide association study (GWAS), maximizing our power while minimizing the possibility of false positive results. Our main analysis will focus in two domains, executive function and occulomotor function, including a total of 6 phenotypes: Performance accuracy, performance speed, voluntary saccade movement speed, inhibition function, eye pursuit system function and reaction time variability. Secondary exploratory analyses will examine associations with underlying latent factors reflecting common elements across tasks and two more phenotypes, the frequency of saccades in an eye fixation task, likely to reflect inhibition function similar to what is measured in the antisaccade task and the open loop pursuit function. Variants identified in our main analysis will be further explored through sequencing, in silico analyses, in vitro analyses and gene transcript analyses on post mortem brain samples in order to point to specific functional DNA variants and explore the biological mechanism through which they influence cognitive performance. Linking genes to cognitive phenotypes will have a significant impact on multiple aspects of biomedical research leading to important public health benefits. Identifying genes that influence aspects of cognition already linked to specific neuronal circuitry will be a considerable benefit to our knowledge and understanding of brain function, tying together neuroscience and genetics. The observed defects of these phenotypes in multiple psychiatric disorders suggests these results will also contribute to untangle the genetics of many psychiatric diseases. Another significant contribution of this study will be through data sharing. Regarding the cognitive phenotypes this data will not only uncover the first genes but also be available for future projects to incorporate into powerful study designs. Regarding the study of psychiatric disorders it will allow the examination of disease - associated DNA variants for effects on cognitive variables, promoting a better understanding of each disorder and the related brain dysfunctions. To maximize these benefits we have paid special attention to provide data informative across genotyping platforms that will be share together with our phenotype data through the NIMH repository.

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