Mineral absorption is an enriched pathway in a brain region of restless legs syndrome patients with reduced MEIS1 expression.

Faezeh Sarayloo,Gabrielle Houle,Gustavo Turecki,Rachel De Barros Oliveira,Patrick A Dion,Jay P Ross,Guy A Rouleau,Helene Catoire,Daniel Rochefort,Fulya Akçimen,Alexandre Dionne-Laporte,Fanis Missirlis

doi:10.1371/journal.pone.0225186

Abstract

Restless legs syndrome is a common complex disorder with different genetic and environmental risk factors. Here we used human cell lines to conduct an RNA-Seq study and observed how the gene showing the most significant association with RLS, MEIS1, acts as a regulator of the expression of many other genes. Some of the genes affected by its expression level are linked to pathways previously reported to be associated with RLS. We found that in cells where MEIS1 expression was either increased or prevented, mineral absorption is the principal dysregulated pathway. The mineral absorption pathway genes, HMOX1 and VDR are involved in iron metabolism and response to vitamin D, respectively. This shows a strong functional link to the known RLS pathways. We observed the same enrichment of the mineral absorption pathway in postmortem brain tissues of RLS patients showing a reduced expression of MEIS1. The expression of genes encoding metallothioneins (MTs) was observed to be dysregulated across the RNA-Seq datasets generated from both human cells and tissues. MTs are highly relevant to RLS as they bind intracellular metals, protect against oxidative stress and interact with ferritins which manage iron level in the central nervous system. Overall, our study suggests that in a subset of RLS patients, the contribution of MEIS1 appears to be associated to its downstream regulation of genes that are more directly involved in pathways that are relevant to RLS. While MTs have been implicated in the pathogenesis of neurodegenerative diseases such as Parkinson’s diseases, this is a first report to propose that they have a role in RLS.

Highlights

Restless legs syndrome (RLS) is a common sleep-related sensory-motor disorder with a high genetic predisposition
SKOR1 was not either a MEIS1 downstream gene in the RLS pons samples in the study by Catoire et al 2018 [18]; this information implicates that the regulatory role of MEIS1 as a transcription factor might vary in different conditions and the downstream genes found by in vitro studies in human cell lines are best to be confirmed in different brain regions related to RLS
Following the identification of a MEIS1 risk haplotype for RLS, our team examined the expression of this gene in material derived from patients and reported that the risk haplotype was associated with its reduced expression in LCL and thalamus region [20]

Summary

Introduction

Restless legs syndrome (RLS) is a common sleep-related sensory-motor disorder with a high genetic predisposition. Enrichment of mineral absorption pathway in RLS patients brain with reduced MEIS1 expression identified eight and 19 loci associated with RLS, respectively [4,5,6,7,8,9,10,11,12]. While the identification of loci offers valuable insights toward a better understanding of the pathogenicity, they collectively account for less than 10% of the heritability estimated for RLS [12, 13]. The biology of RLS is incompletely understood but the availability of iron and dopamine in the brain were reported to affect the severity of the sensory and motor symptoms in affected individuals [14, 15]. Kidney disorders, changes in circadian rhythm, multiple pregnancies as well as vitamin D deficiency were observed to correlate with RLS through unknown mechanisms [16, 17]

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Results

Conclusion