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Multiplexed chemogenetics in astrocytes and motoneurons restore blood-spinal cord barrier in ALS.

Ouali Alami, N ; Tang, L ; et al.
In: Life science alliance, Jg. 3 (2020-09-08), Heft 11
Online academicJournal
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Blood-spinal cord barrier (BSCB) disruption is thought to contribute to motoneuron (MN) loss in amyotrophic lateral sclerosis (ALS). It is currently unclear whether impairment of the BSCB is the cause or consequence of MN dysfunction and whether its restoration may be directly beneficial. We revealed that SOD1 G93A , FUS Δ NLS , TDP43 G298S , and Tbk1 +/- ALS mouse models commonly shared alterations in the BSCB, unrelated to motoneuron loss. We exploit PSAM/PSEM chemogenetics in SOD1 G93A mice to demonstrate that the BSCB is rescued by increased MN firing, whereas inactivation worsens it. Moreover, we use DREADD chemogenetics, alone or in multiplexed form, to show that activation of Gi signaling in astrocytes restores BSCB integrity, independently of MN firing, with no effect on MN disease markers and dissociating them from BSCB disruption. We show that astrocytic levels of the BSCB stabilizers Wnt7a and Wnt5a are decreased in SOD1 G93A mice and strongly enhanced by Gi signaling, although further decreased by MN inactivation. Thus, we demonstrate that BSCB impairment follows MN dysfunction in ALS pathogenesis but can be reversed by Gi-induced expression of astrocytic Wnt5a/7a.

(© 2020 Ouali Alami et al.)

Titel:
Multiplexed chemogenetics in astrocytes and motoneurons restore blood-spinal cord barrier in ALS.
Autor/in / Beteiligte Person: Ouali Alami, N ; Tang, L ; Wiesner, D ; Commisso, B ; Bayer, D ; Weishaupt, J ; Dupuis, L ; Wong, P ; Baumann, B ; Wirth, T ; Boeckers, TM ; Yilmazer-Hanke, D ; Ludolph, A ; Roselli, F
Link:
Zeitschrift: Life science alliance, Jg. 3 (2020-09-08), Heft 11
Veröffentlichung: [Woodbury, NY] : Life Science Alliance, LLC, [2018]-, 2020
Medientyp: academicJournal
ISSN: 2575-1077 (electronic)
DOI: 10.26508/lsa.201900571
Schlagwort:
  • Amyotrophic Lateral Sclerosis blood
  • Animals
  • Astrocytes physiology
  • Disease Models, Animal
  • Disease Progression
  • Female
  • Humans
  • Male
  • Mice
  • Mice, Inbred C57BL
  • Mice, Transgenic
  • Motor Neurons physiology
  • Spinal Cord metabolism
  • Spine blood supply
  • Spine metabolism
  • Superoxide Dismutase metabolism
  • Superoxide Dismutase-1 genetics
  • Superoxide Dismutase-1 metabolism
  • Wnt Proteins metabolism
  • Wnt-5a Protein metabolism
  • Amyotrophic Lateral Sclerosis metabolism
  • Astrocytes metabolism
  • Motor Neurons metabolism
Sonstiges:
  • Nachgewiesen in: MEDLINE
  • Sprachen: English
  • Publication Type: Journal Article; Research Support, Non-U.S. Gov't
  • Language: English
  • [Life Sci Alliance] 2020 Sep 08; Vol. 3 (11). <i>Date of Electronic Publication: </i>2020 Sep 08 (<i>Print Publication: </i>2020).
  • MeSH Terms: Amyotrophic Lateral Sclerosis / *metabolism ; Astrocytes / *metabolism ; Motor Neurons / *metabolism ; Amyotrophic Lateral Sclerosis / blood ; Animals ; Astrocytes / physiology ; Disease Models, Animal ; Disease Progression ; Female ; Humans ; Male ; Mice ; Mice, Inbred C57BL ; Mice, Transgenic ; Motor Neurons / physiology ; Spinal Cord / metabolism ; Spine / blood supply ; Spine / metabolism ; Superoxide Dismutase / metabolism ; Superoxide Dismutase-1 / genetics ; Superoxide Dismutase-1 / metabolism ; Wnt Proteins / metabolism ; Wnt-5a Protein / metabolism
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  • Substance Nomenclature: 0 (Wnt Proteins) ; 0 (Wnt-5a Protein) ; 0 (Wnt5a protein, mouse) ; 0 (Wnt7a protein, mouse) ; EC 1.15.1.1 (Superoxide Dismutase) ; EC 1.15.1.1 (Superoxide Dismutase-1)
  • Entry Date(s): Date Created: 20200909 Date Completed: 20210716 Latest Revision: 20210716
  • Update Code: 20231215
  • PubMed Central ID: PMC7479971

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