Investigation of early axonal phenotypes in an iPSC-derived ALS cellular model using a microfluidic device
Asako Otomo, Keiko Nishijima, Yuta Murakami, Mitsuru Ishikawa, Haruka Yudahira, Kento Shimakura, Hideyuki Okano, Masashi Aoki, Hiroshi Kimura, Shinji Hadano

TL;DR
This study uses a microfluidic device to examine early axonal changes in motor neurons derived from stem cells of ALS patients with FUS/TLS mutations.
Contribution
A novel microfluidic system enables high-resolution observation of early axonal degeneration in ALS motor neurons.
Findings
FUS_H517D motor neurons showed reduced viability after 14 and 21 days of differentiation.
Axonal growth was significantly restricted in FUS_H517D motor neurons as early as 7 days after differentiation.
Mitochondrial trafficking was altered in FUS_H517D motor neurons, with increased retrograde transport.
Abstract
Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disease caused by the loss of upper and lower motor neurons. Mutations in the FUS/TLS gene have been reported as the second most common mutation in Japanese patients with familial ALS. In recent years, lower motor neurons (LMNs) differentiated from induced pluripotent stem cells (iPSCs) derived from ALS patients have been widely used to analyze the mechanisms of neuronal cell death and degeneration. In this study, we developed a microfluidic device designed to observe axonal growth, morphology, and trafficking at high resolution in neurons derived from induced pluripotent stem cells (iPSCs) and tested whether our microfluidic device effectively evaluates neurodegenerative phenotypes. We used iPSCs carrying homozygous FUS/TLS mutations (FUS_H517D) to induce LMNs by expressing NEUROG2, ISL1, and LHX3 under the control…
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Taxonomy
TopicsAmyotrophic Lateral Sclerosis Research · Pluripotent Stem Cells Research · Neurogenetic and Muscular Disorders Research
