The neuroproteomics of schizophrenia

English, Jane A. and Pennington, Kyla and Dunn, Michael J. and Cotter, David R (2011) The neuroproteomics of schizophrenia. Biological Psychiatry, 69 (2). pp. 163-172. ISSN 0006-3223

Full content URL: http://www.ncbi.nlm.nih.gov/pubmed/20887976

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Abstract

Proteomics is the study of global gene expression of an organ, body system, fluid, or cellular compartment at the protein level. Proteomic findings are reflective of complex gene-environment interactions, and the importance of this is increasingly appreciated in schizophrenia research. In this review, we outline the main proteomic methods available to researchers in this area and summarize, for the first time, the findings of the main quantitative neuroproteomic investigations of schizophrenia brain. Our review of these data revealed 16 gray matter proteins, and eight white matter proteins that were differentially expressed in the same direction in two or more investigations. Pathway analysis identified cellular assembly and organization as particularly disrupted in both gray and white matter, whereas the glycolysis–
gluconeogenesis pathway was the major signaling pathway significantly altered in both. Reassuringly, these findings show remarkable convergence with functional pathways and positional candidate genes implicated from genomic studies. The specificity of schizophrenia proteomic findings are also addressed in the context of neuroproteomic investigations of neurodegenerative disorders and bipolar disorder. Finally, we discuss the major challenges in the field of neuroproteomics, such as the need for high throughput validation methods and optimal sample preparation. Future directions in the neuroproteomics of schizophrenia, including the use of blood-based biomarker work, the need to focus on subproteomes, and the increasing use of mass spectrometry–based methods are all discussed. This area of research is
still in its infancy and offers huge potential to our understanding of schizophrenia on a cellular level.

Keywords:2-DE, mass spectrometry, postmortem brain, proteomics, schizophrenia
Subjects:C Biological Sciences > C800 Psychology
C Biological Sciences > C860 Neuropsychology
Divisions:College of Social Science > School of Psychology
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ID Code:9244
Deposited On:02 May 2013 08:06

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