TY - JOUR
T1 - Uncoupling of Protein Aggregation and Neurodegeneration in a Mouse Amyotrophic Lateral Sclerosis Model
AU - Lee, Joo Yong
AU - Kawaguchi, Yoshiharu
AU - Li, Ming
AU - Kapur, Meghan
AU - Choi, Su Jin
AU - Kim, Hak June
AU - Park, Song Yi
AU - Zhu, Haining
AU - Yao, Tso Pang
N1 - Publisher Copyright:
© 2015 S. Karger AG, Basel.
PY - 2015/11/24
Y1 - 2015/11/24
N2 - Aberrant accumulation of protein aggregates is a pathological hallmark of many neurodegenerative diseases, including amyotrophic lateral sclerosis (ALS). Although a buildup of protein aggregates frequently leads to cell death, whether it is the key pathogenic factor in driving neurodegenerative disease remains controversial. HDAC6, a cytosolic ubiquitin-binding deacetylase, has emerged as an important regulator of ubiquitin-dependent quality control autophagy, a lysosome-dependent degradative system responsible for the disposal of misfolded protein aggregates and damaged organelles. Here, we show that in cell models HDAC6 plays a protective role against multiple disease-associated and aggregation-prone cytosolic proteins by facilitating their degradation. We further show that HDAC6 is required for efficient localization of lysosomes to protein aggregates, indicating that lysosome targeting to autophagic substrates is regulated. Supporting a critical role of HDAC6 in protein aggregate disposal in vivo, genetic ablation of HDAC6 in a transgenic SOD1 G93A mouse, a model of ALS, leads to dra-matic accumulation of ubiquitinated SOD1 G93A protein aggregates. Surprisingly, despite a robust buildup of SOD1 G93A aggregates, deletion of HDAC6 only moderately modified the motor phenotypes. These findings indicate that SOD1 G93A aggregation is not the only determining factor to drive neurodegeneration in ALS, and that HDAC6 likely modulates neurodegeneration through additional mechanisms beyond protein aggregate clearance.
AB - Aberrant accumulation of protein aggregates is a pathological hallmark of many neurodegenerative diseases, including amyotrophic lateral sclerosis (ALS). Although a buildup of protein aggregates frequently leads to cell death, whether it is the key pathogenic factor in driving neurodegenerative disease remains controversial. HDAC6, a cytosolic ubiquitin-binding deacetylase, has emerged as an important regulator of ubiquitin-dependent quality control autophagy, a lysosome-dependent degradative system responsible for the disposal of misfolded protein aggregates and damaged organelles. Here, we show that in cell models HDAC6 plays a protective role against multiple disease-associated and aggregation-prone cytosolic proteins by facilitating their degradation. We further show that HDAC6 is required for efficient localization of lysosomes to protein aggregates, indicating that lysosome targeting to autophagic substrates is regulated. Supporting a critical role of HDAC6 in protein aggregate disposal in vivo, genetic ablation of HDAC6 in a transgenic SOD1 G93A mouse, a model of ALS, leads to dra-matic accumulation of ubiquitinated SOD1 G93A protein aggregates. Surprisingly, despite a robust buildup of SOD1 G93A aggregates, deletion of HDAC6 only moderately modified the motor phenotypes. These findings indicate that SOD1 G93A aggregation is not the only determining factor to drive neurodegeneration in ALS, and that HDAC6 likely modulates neurodegeneration through additional mechanisms beyond protein aggregate clearance.
KW - Aggregates
KW - Aggresome
KW - Amyotrophic lateral sclerosis
KW - Autophagy
KW - HDAC6
KW - Lysosome
KW - SOD1 mutant
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U2 - 10.1159/000437208
DO - 10.1159/000437208
M3 - Article
C2 - 26360702
AN - SCOPUS:84948714601
SN - 1660-2854
VL - 15
SP - 339
EP - 349
JO - Neurodegenerative Diseases
JF - Neurodegenerative Diseases
IS - 6
ER -