Francesco Limone, Daniel A. Mordes, Alexander Couto, Brian J. Joseph, Jana M. Mitchell, Martine Therrien, Sulagna Dia Ghosh, Daniel Meyer, Yingying Zhang, Melissa Goldman, Laura Bortolin, Inma Cobos, Beth Stevens, Steven A. McCarroll, Irena Kadiu, Aaron Burberry, Olli Pietiläinen, Kevin Eggan
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引用次数: 0
Abstract
Amyotrophic lateral sclerosis (ALS) is a neurodegenerative disorder characterized by a progressive loss of motor function linked to degenerating extratelencephalic neurons/Betz cells (ETNs). The reasons why these neurons are selectively affected remain unclear. Here, to understand the unique molecular properties that may sensitize ETNs to ALS, we performed RNA sequencing of 79,169 single nuclei from cortices of patients and controls. In both patients and unaffected individuals, we found significantly higher expression of ALS risk genes in THY1+ ETNs, regardless of diagnosis. In patients, this was accompanied by the induction of genes involved in protein homeostasis and stress responses that were significantly induced in a wide collection of ETNs. Examination of oligodendroglial and microglial nuclei revealed patient-specific downregulation of myelinating genes in oligodendrocytes and upregulation of an endolysosomal reactive state in microglia. Our findings suggest that selective vulnerability of extratelencephalic neurons is partly connected to their intrinsic molecular properties sensitizing them to genetics and mechanisms of degeneration. Using single-nucleus RNA sequencing data from patients with sporadic amyotrophic lateral sclerosis (ALS) cortices, the authors find that higher expression of ALS risk genes is accompanied by upregulation of stress responses in groups of extratelencephalic neurons. Analyses of glial nuclei revealed a downregulation of myelination genes in oligodendrocytes and upregulation of reactive state genes in microglia.
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