Altered choroid plexus gene expression in major depressive disorder.

Cortney A Turner,Richard M Myers,Huda Akil,Stanley J Watson,Robert C Thompson,Jack D Barchas,Alan F Schatzberg,William E Bunney

doi:10.3389/fnhum.2014.00238

Abstract

Given the emergent interest in biomarkers for mood disorders, we assessed gene expression in the choroid plexus (CP), the region that produces cerebrospinal fluid (CSF), in individuals with major depressive disorder (MDD). Genes that are expressed in the CP can be secreted into the CSF and may be potential biomarker candidates. Given that we have previously shown that fibroblast growth factor family members are differentially expressed in post-mortem brain of subjects with MDD and the CP is a known source of growth factors in the brain, we posed the question whether growth factor dysregulation would be found in the CP of subjects with MDD. We performed laser capture microscopy of the CP at the level of the hippocampus in subjects with MDD and psychiatrically normal controls. We then extracted, amplified, labeled, and hybridized the cRNA to Illumina BeadChips to assess gene expression. In controls, the most highly abundant known transcript was transthyretin. Moreover, half of the 14 most highly expressed transcripts in controls encode ribosomal proteins. Using BeadStudio software, we identified 169 transcripts differentially expressed (p < 0.05) between control and MDD samples. Using pathway analysis we noted that the top network altered in subjects with MDD included multiple members of the transforming growth factor-beta (TGFβ) pathway. Quantitative real-time PCR (qRT-PCR) confirmed downregulation of several transcripts that interact with the extracellular matrix in subjects with MDD. These results suggest that there may be an altered cytoskeleton in the CP in MDD subjects that may lead to a disrupted blood-CSF-brain barrier.

Highlights

The choroid plexus (CP) is composed primarily of capillary beds, the pia mater and a large number of epithelial cells
This is evident in dissections of the human hippocampus, a brain structure known to respond to antidepressants and play a role in neurogenesis (Cameron and McKay, 2001; Mallei et al, 2002; Duman, 2004; Bachis et al, 2008)
Given the proximity of the CP in the lateral ventricle to the hippocampus and the ability of the CP to secrete proteins into the cerebrospinal fluid (CSF) that can act on the hippocampus, it is surprising that this structure has not been previously studied in individuals with mood disorders

Summary

Introduction

The choroid plexus (CP) is composed primarily of capillary beds, the pia mater and a large number of epithelial cells. The CP produces cerebrospinal fluid (CSF), removes byproducts, plays a role in neuroendocrine signaling and provides structural support for the brain (Skipor and Thiery, 2008; Wolburg and Paulus, 2010). As the CP is found largely in the lateral ventricles, it is often co-dissected with surrounding brain tissue. This is evident in dissections of the human hippocampus, a brain structure known to respond to antidepressants and play a role in neurogenesis (Cameron and McKay, 2001; Mallei et al, 2002; Duman, 2004; Bachis et al, 2008). The CP has, been shown to exhibit alterations following chronic stress in rats, a model known to induce depression-like behavior (Sathyanesan et al, 2012)

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Conclusion