Multidrug resistance protein 1 reduces the aggregation of mutant huntingtin in neuronal cells derived from the Huntington's disease R6/2 model.

Wooseok Im,Jae-Jun Ban,Jin-Young Chung,Soon-Tae Lee,Manho Kim,Kon Chu

doi:10.1038/srep16887

Wooseok Im, Jae-Jun Ban + Show 4 more

Open Access

https://doi.org/10.1038/srep16887

Copy DOI

Journal: Scientific reports	Publication Date: Nov 20, 2015
Citations: 11	License type: CC BY 4.0

Affiliation: Seoul National University Hospital

Abstract

Mutant huntingtin (mHtt) aggregation in the nucleus is the most readily apparent phenotype and cause of neuronal death in Huntington’s disease (HD). Inhibiting mHtt aggregation reduces cell death in the brain and is thus a promising therapeutic approach. The results of the present study demonstrated that mHtt aggregation in the nucleus was altered by the activity of multidrug resistance protein 1 (MDR1), which was experimentally modulated by verapamil, siRNA and an expression vector. MDR1 detoxifies drugs and metabolites through its excretory functions in the membrane compartment, thereby protecting cells against death or senescence. When they were treated with verapamil, R6/2 mice showed a progressive decline in rotarod performance and increased mHtt aggregation in the brain. Using neuronal stem cells from R6/2 mice, we developed an in vitro HD model to test mHtt accumulation in the nuclei of neurons. When MDR1 activity in cells was decreased by verapamil or siRNA, mHtt aggregation in the nuclei increased, whereas the induction of MDR1 resulted in a decrease in mHtt aggregation. Thus, our data provide evidence that MDR1 plays an important role in the clearance of mHtt aggregation and may thus be a potential target for improving the survival of neurons in Huntington’s disease.

Highlights

Verapamil and MDR1 small interfering RNA (siRNA) increased mutant polyglutamine (PolyQ)-expanded huntingtin protein (mHtt) accumulation in an in vitro Huntington’s disease (HD) model, and the former decreased the performance of R6/2 transgenic mice in the rotarod test
These results indicate that MDR1 has an important role in modulating the accumulation of mHtt aggregation in cells
R6/2 transgenic mice are widely used for investigating HD and its pathological phenotypes, such as body weight decrease and motor impairment, which are correlated with the CAG repeat length[24]

Summary

Introduction

Whether MDR1 affects mHtt aggregation in HD is unknown. We investigated whether MDR1 inhibits the aggregation of mHtt using R6/2 transgenic HD mice (R6/2) that express exon 1 of the human huntingtin gene with > 110 CAG repeats and display mHtt aggregation in the cells of the brain[15]. Neuronal stem cells from R6/2 mice were used to study the effects of MDR1 on mHtt aggregation at the cellular level because MDR1 is strongly expressed in neural stem cells[16,17,18] and because its expression is downregulated when these cells are differentiated[19,20,21]. The accumulation of mHtt was analysed in the nucleus after inducing the expression of MDR1 in cells

Objectives

Methods

Results

Conclusion