Identification and therapeutic rescue of autophagosome and glutamate receptor defects in C9ORF72 and sporadic ALS neurons
Yingxiao Shi, Shu-Ting Hung, Gabriel Rocha, Shaoyu Lin, Gabriel R. Linares, Kim A. Staats, Carina Seah, Yaoming Wang, Michael Chickering, Jesse Lai, Tohru Sugawara, Abhay P. Sagare, Berislav V. Zlokovic, Justin K. Ichida
Yingxiao Shi, Shu-Ting Hung, Gabriel Rocha, Shaoyu Lin, Gabriel R. Linares, Kim A. Staats, Carina Seah, Yaoming Wang, Michael Chickering, Jesse Lai, Tohru Sugawara, Abhay P. Sagare, Berislav V. Zlokovic, Justin K. Ichida
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Research Article Neuroscience Stem cells

Identification and therapeutic rescue of autophagosome and glutamate receptor defects in C9ORF72 and sporadic ALS neurons

Abstract

Amyotrophic lateral sclerosis (ALS) is a fatal motor neuron disease with diverse etiologies. Therefore, the identification of common disease mechanisms and therapeutics targeting these mechanisms could dramatically improve clinical outcomes. To this end, we developed induced motor neuron (iMN) models from C9ORF72 and sporadic ALS patients to identify targets that are effective against these types of cases, which together comprise approximately 90% of patients. We find that iMNs from C9ORF72 and several sporadic ALS patients share 2 common defects — impaired autophagosome formation and the aberrant accumulation of glutamate receptors. Moreover, we show that an anticoagulation-deficient form of activated protein C, 3K3A-APC, rescues these defects in both C9ORF72 and sporadic ALS iMNs. As a result, 3K3A-APC treatment lowers C9ORF72 dipeptide-repeat protein (DPR) levels, restores nuclear TDP-43 localization, and rescues the survival of both C9ORF72 and sporadic ALS iMNs. Importantly, 3K3A-APC also lowers glutamate receptor levels and rescues proteostasis in vivo in C9ORF72 gain- and loss-of-function mouse models. Thus, motor neurons from C9ORF72 and at least a subset of sporadic ALS patients share early defects in autophagosome formation and glutamate receptor homeostasis and a single therapeutic approach may be efficacious against these disease processes.

Authors

Yingxiao Shi, Shu-Ting Hung, Gabriel Rocha, Shaoyu Lin, Gabriel R. Linares, Kim A. Staats, Carina Seah, Yaoming Wang, Michael Chickering, Jesse Lai, Tohru Sugawara, Abhay P. Sagare, Berislav V. Zlokovic, Justin K. Ichida

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Figure 5

3K3A-APC rescues the survival of C9ORF72 and sporadic ALS iMNs in a PAR1-dependent manner.

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3K3A-APC rescues the survival of C9ORF72 and sporadic ALS iMNs in a PAR1...
(A) Survival of iMNs from 3 control or 1 SOD1A4V ALS patient line in excess glutamate with 10 nM inactive 3K3A-APC or 3K3A-APC. n = 90 iMNs per line per condition, iMNs from all control lines shown in aggregate for clarity. iMNs quantified from 3 biologically independent iMN conversions per line. (B) Survival of iMNs from 2 C9-ALS lines in excess glutamate with inactive 3K3A-APC or different concentrations of 3K3A-APC. n = 90 iMNs per line per condition, iMNs from both lines shown in aggregate for clarity. iMNs quantified from 3 biologically independent iMN conversions per line. (C) C9-ALS iMNs on day 12 of survival in excess glutamate with inactive 3K3A-APC or 3K3A-APC treatment. This experiment was repeated 3 times with similar results. Scale bar: 100 μm. (D) Survival of control iMNs in excess glutamate with 10 nM inactive 3K3A-APC or 3K3A-APC, n = 90 iMNs per line per condition for 3 control and 3 C9-ALS lines, iMNs quantified from 3 biologically independent iMN conversions per line. (EG) Survival of iMNs from 2 C9-ALS lines in excess glutamate with 3K3A-APC with or without 3 μM PAR1 antagonist treatment (E) or PAR2 antagonist treatment (F). n = 90 iMNs per line per condition, iMNs from both lines shown in aggregate for clarity. iMNs quantified from 3 biologically independent iMN conversions per line. Survival of iMNs from 2 C9-ALS lines in excess glutamate with 3K3A-APC with or without 9 μM PAR1 ASO treatment (G). n = 90 iMNs per line per condition, iMNs from both lines shown in aggregate for clarity. iMNs quantified from 3 biologically independent iMN conversions per line. Each trace includes neurons from 2 donors with the specified genotype. All iMN survival experiments were analyzed by 2-sided log-rank test and corrected for multiple comparisons if applicable. Statistical significance was calculated using the entire survival time course. (H and I) Survival of iMNs from sporadic ALS (sALS) clone 1 in excess glutamate with 10 nM inactive 3K3A-APC or 3K3A-APC (H), or with 3K3A-APC and DMSO or a PAR1 antagonist (I). n = 90 iMNs per condition. iMNs quantified from 3 biologically independent iMN conversions. For all iMN survival experiments, significance was measure by 2-sided log-rank test using the entire survival time course. The day of differentiation stated on each panel indicates the day of differentiation on which the experimental treatment or time course was initiated.