The Ubiquitin Proteasome System Is a Key Regulator of Pluripotent Stem Cell Survival and Motor Neuron Differentiation

The Ubiquitin Proteasome System Is a Key Regulator of Pluripotent Stem Cell Survival and Motor Neuron Differentiation

The ubiquitin proteasome system (UPS) plays an important role in regulating numerous cellular processes, and a dysfunctional UPS is thought to contribute to motor neuron disease. Consequently, we sought to map the changing ubiquitome in human iPSCs during their pluripotent stage and following differ...

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Main Authors: Monique Bax, Jessie McKenna, Dzung Do-Ha, Claire H. Stevens, Sarah Higginbottom, Rachelle Balez, Mauricio e Castro Cabral-da-Silva, Natalie E. Farrawell, Martin Engel, Philip Poronnik, Justin J. Yerbury, Darren N. Saunders, Lezanne Ooi
Format: Article
Language:English
Published: MDPI AG 2019-06-01
Series:Cells
Subjects:
ubiquitin
ubiquitinomics
UBA1
induced pluripotent stem cell
motor neuron
motor neurone disease
amyotrophic lateral sclerosis
Online Access:https://www.mdpi.com/2073-4409/8/6/581
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spelling doaj-fb3bfa9cf941450b97ac10ec0bf3e5ef2020-11-25T01:30:26ZengMDPI AGCells2073-44092019-06-018658110.3390/cells8060581cells8060581The Ubiquitin Proteasome System Is a Key Regulator of Pluripotent Stem Cell Survival and Motor Neuron DifferentiationMonique Bax0Jessie McKenna1Dzung Do-Ha2Claire H. Stevens3Sarah Higginbottom4Rachelle Balez5Mauricio e Castro Cabral-da-Silva6Natalie E. Farrawell7Martin Engel8Philip Poronnik9Justin J. Yerbury10Darren N. Saunders11Lezanne Ooi12Illawarra Health and Medical Research Institute, Northfields Avenue, Wollongong, NSW 2522, AustraliaSchool of Medical Sciences, University of New South Wales, Sydney, NSW 2052, AustraliaIllawarra Health and Medical Research Institute, Northfields Avenue, Wollongong, NSW 2522, AustraliaIllawarra Health and Medical Research Institute, Northfields Avenue, Wollongong, NSW 2522, AustraliaIllawarra Health and Medical Research Institute, Northfields Avenue, Wollongong, NSW 2522, AustraliaIllawarra Health and Medical Research Institute, Northfields Avenue, Wollongong, NSW 2522, AustraliaIllawarra Health and Medical Research Institute, Northfields Avenue, Wollongong, NSW 2522, AustraliaIllawarra Health and Medical Research Institute, Northfields Avenue, Wollongong, NSW 2522, AustraliaIllawarra Health and Medical Research Institute, Northfields Avenue, Wollongong, NSW 2522, AustraliaSchool of Medical Sciences, Faculty of Medicine and Health, The University of Sydney, Camperdown, NSW 2050, AustraliaIllawarra Health and Medical Research Institute, Northfields Avenue, Wollongong, NSW 2522, AustraliaSchool of Medical Sciences, University of New South Wales, Sydney, NSW 2052, AustraliaIllawarra Health and Medical Research Institute, Northfields Avenue, Wollongong, NSW 2522, AustraliaThe ubiquitin proteasome system (UPS) plays an important role in regulating numerous cellular processes, and a dysfunctional UPS is thought to contribute to motor neuron disease. Consequently, we sought to map the changing ubiquitome in human iPSCs during their pluripotent stage and following differentiation to motor neurons. Ubiquitinomics analysis identified that spliceosomal and ribosomal proteins were more ubiquitylated in pluripotent stem cells, whilst proteins involved in fatty acid metabolism and the cytoskeleton were specifically ubiquitylated in the motor neurons. The UPS regulator, ubiquitin-like modifier activating enzyme 1 (UBA1), was increased 36-fold in the ubiquitome of motor neurons compared to pluripotent stem cells. Thus, we further investigated the functional consequences of inhibiting the UPS and UBA1 on motor neurons. The proteasome inhibitor MG132, or the UBA1-specific inhibitor PYR41, significantly decreased the viability of motor neurons. Consistent with a role of the UPS in maintaining the cytoskeleton and regulating motor neuron differentiation, UBA1 inhibition also reduced neurite length. Pluripotent stem cells were extremely sensitive to MG132, showing toxicity at nanomolar concentrations. The motor neurons were more resilient to MG132 than pluripotent stem cells but demonstrated higher sensitivity than fibroblasts. Together, this data highlights the important regulatory role of the UPS in pluripotent stem cell survival and motor neuron differentiation.https://www.mdpi.com/2073-4409/8/6/581ubiquitinubiquitinomicsUBA1induced pluripotent stem cellmotor neuronmotor neurone diseaseamyotrophic lateral sclerosis
collection DOAJ
language English
format Article
sources DOAJ
author Monique Bax
Jessie McKenna
Dzung Do-Ha
Claire H. Stevens
Sarah Higginbottom
Rachelle Balez
Mauricio e Castro Cabral-da-Silva
Natalie E. Farrawell
Martin Engel
Philip Poronnik
Justin J. Yerbury
Darren N. Saunders
Lezanne Ooi
spellingShingle Monique Bax
Jessie McKenna
Dzung Do-Ha
Claire H. Stevens
Sarah Higginbottom
Rachelle Balez
Mauricio e Castro Cabral-da-Silva
Natalie E. Farrawell
Martin Engel
Philip Poronnik
Justin J. Yerbury
Darren N. Saunders
Lezanne Ooi
The Ubiquitin Proteasome System Is a Key Regulator of Pluripotent Stem Cell Survival and Motor Neuron Differentiation
Cells
ubiquitin
ubiquitinomics
UBA1
induced pluripotent stem cell
motor neuron
motor neurone disease
amyotrophic lateral sclerosis
author_facet Monique Bax
Jessie McKenna
Dzung Do-Ha
Claire H. Stevens
Sarah Higginbottom
Rachelle Balez
Mauricio e Castro Cabral-da-Silva
Natalie E. Farrawell
Martin Engel
Philip Poronnik
Justin J. Yerbury
Darren N. Saunders
Lezanne Ooi
author_sort Monique Bax
title The Ubiquitin Proteasome System Is a Key Regulator of Pluripotent Stem Cell Survival and Motor Neuron Differentiation
title_short The Ubiquitin Proteasome System Is a Key Regulator of Pluripotent Stem Cell Survival and Motor Neuron Differentiation
title_full The Ubiquitin Proteasome System Is a Key Regulator of Pluripotent Stem Cell Survival and Motor Neuron Differentiation
title_fullStr The Ubiquitin Proteasome System Is a Key Regulator of Pluripotent Stem Cell Survival and Motor Neuron Differentiation
title_full_unstemmed The Ubiquitin Proteasome System Is a Key Regulator of Pluripotent Stem Cell Survival and Motor Neuron Differentiation
title_sort ubiquitin proteasome system is a key regulator of pluripotent stem cell survival and motor neuron differentiation
publisher MDPI AG
series Cells
issn 2073-4409
publishDate 2019-06-01
description The ubiquitin proteasome system (UPS) plays an important role in regulating numerous cellular processes, and a dysfunctional UPS is thought to contribute to motor neuron disease. Consequently, we sought to map the changing ubiquitome in human iPSCs during their pluripotent stage and following differentiation to motor neurons. Ubiquitinomics analysis identified that spliceosomal and ribosomal proteins were more ubiquitylated in pluripotent stem cells, whilst proteins involved in fatty acid metabolism and the cytoskeleton were specifically ubiquitylated in the motor neurons. The UPS regulator, ubiquitin-like modifier activating enzyme 1 (UBA1), was increased 36-fold in the ubiquitome of motor neurons compared to pluripotent stem cells. Thus, we further investigated the functional consequences of inhibiting the UPS and UBA1 on motor neurons. The proteasome inhibitor MG132, or the UBA1-specific inhibitor PYR41, significantly decreased the viability of motor neurons. Consistent with a role of the UPS in maintaining the cytoskeleton and regulating motor neuron differentiation, UBA1 inhibition also reduced neurite length. Pluripotent stem cells were extremely sensitive to MG132, showing toxicity at nanomolar concentrations. The motor neurons were more resilient to MG132 than pluripotent stem cells but demonstrated higher sensitivity than fibroblasts. Together, this data highlights the important regulatory role of the UPS in pluripotent stem cell survival and motor neuron differentiation.
topic ubiquitin
ubiquitinomics
UBA1
induced pluripotent stem cell
motor neuron
motor neurone disease
amyotrophic lateral sclerosis
url https://www.mdpi.com/2073-4409/8/6/581
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