Infragranular gene expression disturbances in the prefrontal cortex in schizophrenia: signature of altered neural development?

Arion D, Horváth S, Lewis DA, Mirnics K
Neurobiol Dis. 2010 37 (3): 738-46

PMID: 20034564 · PMCID: PMC2823856 · DOI:10.1016/j.nbd.2009.12.013

The development of the human neocortex gives rise to a complex cytoarchitecture, grouping together cells with similar structure, connectivity and function. As a result, the six neocortical laminae show distinct molecular content. In schizophrenia, many anatomical and neurochemical changes appear to be restricted to a subset of lamina and/or cell types. In this study, we hypothesized that supragranular (SG; laminae II-III) and infragranular layers (IG; laminae V-VI) of area 46 in the human prefrontal cortex will show distinct and specific transcriptome alterations between subjects with schizophrenia and matched controls. To enhance sample homogeneity, we compared the gene expression patterns of the SG and IG layers of 8 matched middle-aged male subjects with schizophrenia to 8 pairwise matched controls using two replicate DNA microarrays for each sample. The study revealed strong disease-related laminar expression differences between the SG and IG layers. Expression changes were dominated by an overall underexpression of the IG-enriched genes in the schizophrenia subjects compared to normal control subjects. Furthermore, using a diagnosis-blind, unsupervised clustering of the control-derived SG or IG-enriched transcripts, the IG-enriched markers segregated the subjects with schizophrenia from the matched controls with a high degree of confidence. Importantly, multiple members of the semaphorin gene family reported altered gene expression, suggesting that the IG gene expression disturbances in subjects with schizophrenia may be a result of altered cortical development and disrupted brain connectivity.

2009 Elsevier Inc. All rights reserved.

MeSH Terms (16)

Body Patterning Gene Expression Regulation, Developmental Genetic Predisposition to Disease Humans Male Middle Aged Multigene Family Nerve Net Nervous System Malformations Neural Pathways Neurons Oligonucleotide Array Sequence Analysis Prefrontal Cortex Schizophrenia Semaphorins Signal Transduction

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