Membralin deficiency dysregulates astrocytic glutamate homeostasis, leading to ALS-like impairment
Lu-Lin Jiang, Bing Zhu, Yingjun Zhao, Xiaoguang Li, Tongfei Liu, Juan Pina-Crespo, Lisa Zhou, Wenxi Xu, Maria J. Rodriguez, Haiyang Yu, Don W. Cleveland, John Ravits, Sandrine Da Cruz, Tao Long, Dongxian Zhang, Timothy Y. Huang, Huaxi Xu
Lu-Lin Jiang, Bing Zhu, Yingjun Zhao, Xiaoguang Li, Tongfei Liu, Juan Pina-Crespo, Lisa Zhou, Wenxi Xu, Maria J. Rodriguez, Haiyang Yu, Don W. Cleveland, John Ravits, Sandrine Da Cruz, Tao Long, Dongxian Zhang, Timothy Y. Huang, Huaxi Xu
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Research Article Cell biology Neuroscience

Membralin deficiency dysregulates astrocytic glutamate homeostasis, leading to ALS-like impairment

Abstract

Mechanisms underlying motor neuron degeneration in amyotrophic lateral sclerosis (ALS) are yet unclear. Specific deletion of the ER-component membralin in astrocytes manifested postnatal motor defects and lethality in mice, causing the accumulation of extracellular glutamate through reducing the glutamate transporter EAAT2. Restoring EAAT2 levels in membralin-KO astrocytes limited astrocyte-dependent excitotoxicity in motor neurons. Transcriptomic profiles from mouse astrocytic membralin-KO motor cortex indicated significant perturbation in KEGG pathway components related to ALS, including downregulation of Eaat2 and upregulation of Tnfrsf1a. Changes in gene expression with membralin deletion also overlapped with mouse ALS models and reactive astrocytes. Our results show that activation of the TNF receptor (TNFR1) NFκB pathway known to suppress Eaat2 transcription was upregulated with membralin deletion. Further, reduced membralin and EAAT2 levels correlated with disease progression in spinal cord from SOD1-mutant mouse models, and reductions in membralin/EAAT2 were observed in human ALS spinal cord. Importantly, overexpression of membralin in SOD1G93A astrocytes decreased TNFR1 levels and increased EAAT2 expression, and improved motor neuron survival. Importantly, upregulation of membralin in SOD1G93A mice significantly prolonged mouse survival. Our study provided a mechanism for ALS pathogenesis where membralin limited glutamatergic neurotoxicity, suggesting that modulating membralin had potential in ALS therapy.

Authors

Lu-Lin Jiang, Bing Zhu, Yingjun Zhao, Xiaoguang Li, Tongfei Liu, Juan Pina-Crespo, Lisa Zhou, Wenxi Xu, Maria J. Rodriguez, Haiyang Yu, Don W. Cleveland, John Ravits, Sandrine Da Cruz, Tao Long, Dongxian Zhang, Timothy Y. Huang, Huaxi Xu

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Figure 8

Restoration of membralin levels in an SOD1G93A ALS model attenuates astrocyte-mediated motor neuron degeneration and extends lifespan.

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Restoration of membralin levels in an SOD1G93A ALS model attenuates astr...
(A) WT or SOD1G93A astrocytes transduced with control or membralin AAV vectors were cocultured with WT human motor neurons for 7 days. Cocultures were immunostained for GFAP (purple), EAAT2 (red), SMI32 (green), and DAPI (blue) as indicated. (B) Skeletonized SMI32 images from A were quantified for neurite length and plotted from at least 3 different views from 8 biological repeats, 2 independent experiments (mean ± SE). Significance values were evaluated by 1-way ANOVA/Tukey’s multiple comparison. ***P < 0.001.(C) Kaplan-Meier survival curves for male SOD1G93A animals injected with either AAV control (black) or membralin (blue) into the cerebral-spinal region at P1. Median survival is indicated for each genotype. Significance was determined by Mantel-Cox log-rank analysis. *P < 0.05. (D) Spinal cord tissues from age-matched WT or SOD1G93A animals injected with control or membralin AAV were stained for EAAT2, GFAP, IBA1, and membralin as indicated. Scale bar: 150 μm. (E) Quantification of histological analysis on WT (black) and SOD1G93A animals injected with control AAV (gray) and AAV-membralin (blue) are shown (WT values were set to 1.0, mean ± SE). Significant differences were evaluated by 1-way ANOVA/Holm-Sidak’s multiple comparison. *P < 0.05, **P < 0.01, ***P < 0.001.