MicroRNA-27a reduces mutant hutingtin aggregation in an in vitro model of Huntington's disease

MicroRNA-27a reduces mutant hutingtin aggregation in an in vitro model of Huntington's disease

Huntington's disease (HD) is a fatal genetic disease caused by abnormal aggregation of mutant huntingtin protein (mHtt). Reduction of mHtt aggregation decreases cell death of the brain and is a promising therapeutic strategy of HD. MicroRNAs are short non-coding nucleotides which modulate vario...

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Veröffentlicht in:Biochemical and biophysical research communications 2017-06, Vol.488 (2), p.316-321
Hauptverfasser: Ban, Jae-Jun, Chung, Jin-Young, Lee, Mijung, Im, Wooseok, Kim, Manho
Format: Artikel
Sprache:eng
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Animals
Disease Models, Animal
Huntingtin Protein - chemistry
Huntingtin Protein - genetics
Huntingtin Protein - metabolism
Huntington Disease - genetics
Huntington Disease - metabolism
Huntington Disease - therapy
Huntington's disease
In vitro HD model
MDR-1
Mice
Mice, Inbred C57BL
microRNA-27a
MicroRNAs - genetics
Protein Aggregates - genetics
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container_issue 2
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container_title Biochemical and biophysical research communications
container_volume 488
creator Ban, Jae-Jun
Chung, Jin-Young
Lee, Mijung
Im, Wooseok
Kim, Manho
description Huntington's disease (HD) is a fatal genetic disease caused by abnormal aggregation of mutant huntingtin protein (mHtt). Reduction of mHtt aggregation decreases cell death of the brain and is a promising therapeutic strategy of HD. MicroRNAs are short non-coding nucleotides which modulate various genes and dysregulated in many diseases including HD. MicroRNA miR-27a was reported to be reduced in the brain of R6/2 HD mouse model and modulate multidrug resistance protein-1 (MDR-1). Using subventricular zone-derived neuronal stem cells (NSCs), we used in vitro HD model to test the effect of miR-27a on MDR-1 and mHtt aggregation. R6/2-derived NSCs can be differentiated under condition of growth factor deprivation, and the progression of differentiation leads to a decrease of MDR-1 level and efflux function of cells. Immunocytochemistry result also confirmed that mHtt aggregation was increased with differentiation. We transfected miR-27a in the R6/2-derived differentiated NSCs, and examined phenotype of HD, mHtt aggregation. As a result, miR-27a transfection resulted in reduction of mHtt aggregation in HD cells. In addition, MDR-1, which can transport mHtt, protein level was increased by miR-27a transfection. Conversely, knock-down of MDR-1 through MDR-1 siRNA increased mHtt aggregation in vitro. Our results indicate that miR-27a could reduce mHtt level of the HD cell by augmenting MDR-1 function. •miR-27a induction reduces mutant huntingtin aggregation in an in vitro HD model.•miR-27a induction increases MDR-1, and MDR-1 is a major player in mutant huntingtin reduction.•This study suggests that miR-27a is an effective source to reduce mutant huntingtin aggregation via augmentation of MDR-1.
doi_str_mv 10.1016/j.bbrc.2017.05.040
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Reduction of mHtt aggregation decreases cell death of the brain and is a promising therapeutic strategy of HD. MicroRNAs are short non-coding nucleotides which modulate various genes and dysregulated in many diseases including HD. MicroRNA miR-27a was reported to be reduced in the brain of R6/2 HD mouse model and modulate multidrug resistance protein-1 (MDR-1). Using subventricular zone-derived neuronal stem cells (NSCs), we used in vitro HD model to test the effect of miR-27a on MDR-1 and mHtt aggregation. R6/2-derived NSCs can be differentiated under condition of growth factor deprivation, and the progression of differentiation leads to a decrease of MDR-1 level and efflux function of cells. Immunocytochemistry result also confirmed that mHtt aggregation was increased with differentiation. We transfected miR-27a in the R6/2-derived differentiated NSCs, and examined phenotype of HD, mHtt aggregation. 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Our results indicate that miR-27a could reduce mHtt level of the HD cell by augmenting MDR-1 function. •miR-27a induction reduces mutant huntingtin aggregation in an in vitro HD model.•miR-27a induction increases MDR-1, and MDR-1 is a major player in mutant huntingtin reduction.•This study suggests that miR-27a is an effective source to reduce mutant huntingtin aggregation via augmentation of MDR-1.</description><identifier>ISSN: 0006-291X</identifier><identifier>EISSN: 1090-2104</identifier><identifier>DOI: 10.1016/j.bbrc.2017.05.040</identifier><identifier>PMID: 28495533</identifier><language>eng</language><publisher>United States: Elsevier Inc</publisher><subject>Animals ; Disease Models, Animal ; Huntingtin Protein - chemistry ; Huntingtin Protein - genetics ; Huntingtin Protein - metabolism ; Huntington Disease - genetics ; Huntington Disease - metabolism ; Huntington Disease - therapy ; Huntington's disease ; In vitro HD model ; MDR-1 ; Mice ; Mice, Inbred C57BL ; microRNA-27a ; MicroRNAs - genetics ; Protein Aggregates - genetics</subject><ispartof>Biochemical and biophysical research communications, 2017-06, Vol.488 (2), p.316-321</ispartof><rights>2017</rights><rights>Copyright © 2017. 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As a result, miR-27a transfection resulted in reduction of mHtt aggregation in HD cells. In addition, MDR-1, which can transport mHtt, protein level was increased by miR-27a transfection. Conversely, knock-down of MDR-1 through MDR-1 siRNA increased mHtt aggregation in vitro. 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As a result, miR-27a transfection resulted in reduction of mHtt aggregation in HD cells. In addition, MDR-1, which can transport mHtt, protein level was increased by miR-27a transfection. Conversely, knock-down of MDR-1 through MDR-1 siRNA increased mHtt aggregation in vitro. Our results indicate that miR-27a could reduce mHtt level of the HD cell by augmenting MDR-1 function. •miR-27a induction reduces mutant huntingtin aggregation in an in vitro HD model.•miR-27a induction increases MDR-1, and MDR-1 is a major player in mutant huntingtin reduction.•This study suggests that miR-27a is an effective source to reduce mutant huntingtin aggregation via augmentation of MDR-1.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>28495533</pmid><doi>10.1016/j.bbrc.2017.05.040</doi><tpages>6</tpages></addata></record>
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subjects Animals
Disease Models, Animal
Huntingtin Protein - chemistry
Huntingtin Protein - genetics
Huntingtin Protein - metabolism
Huntington Disease - genetics
Huntington Disease - metabolism
Huntington Disease - therapy
Huntington's disease
In vitro HD model
MDR-1
Mice
Mice, Inbred C57BL
microRNA-27a
MicroRNAs - genetics
Protein Aggregates - genetics
title MicroRNA-27a reduces mutant hutingtin aggregation in an in vitro model of Huntington's disease
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