Activation of Neurotoxic Astrocytes Due to Mitochondrial Dysfunction Triggered by POLG Mutation

Kristina Xiao Liang, Anbin Chen, Atefeh Kianian, Cecilie Katrin Kristiansen, Tsering Yangzom, Jessica Furriol, Lena Elise Høyland, Mathias Ziegler, Torbjørn Kråkenes, Charalampos Tzoulis, Evandro Fei Fang, Gareth John Sullivan, Laurence A Bindoff

Research output: Contribution to journalArticlepeer-review

Abstract

Mitochondrial diseases are associated with neuronal death and mtDNA depletion. Astrocytes respond to injury or stimuli and damage to the central nervous system. Neurodegeneration can cause astrocytes to activate and acquire toxic functions that induce neuronal death. However, astrocyte activation and its impact on neuronal homeostasis in mitochondrial disease remain to be explored. Using patient cells carrying POLG mutations, we generated iPSCs and then differentiated these into astrocytes. POLG astrocytes exhibited mitochondrial dysfunction including loss of mitochondrial membrane potential, energy failure, loss of complex I and IV, disturbed NAD+/NADH metabolism, and mtDNA depletion. Further, POLG derived astrocytes presented an A1-like reactive phenotype with increased proliferation, invasion, upregulation of pathways involved in response to stimulus, immune system process, cell proliferation and cell killing. Under direct and indirect co-culture with neurons, POLG astrocytes manifested a toxic effect leading to the death of neurons. We demonstrate that mitochondrial dysfunction caused by POLG mutations leads not only to intrinsic defects in energy metabolism affecting both neurons and astrocytes, but also to neurotoxic damage driven by astrocytes. These findings reveal a novel role for dysfunctional astrocytes that contribute to the pathogenesis of POLG diseases.

Original languageEnglish
Pages (from-to)2860-2880
Number of pages21
JournalInternational journal of biological sciences
Volume20
Issue number8
DOIs
Publication statusPublished - 2024

Keywords

  • Astrocytes/metabolism
  • DNA Polymerase gamma/genetics
  • Humans
  • Mitochondria/metabolism
  • Mutation
  • DNA-Directed DNA Polymerase/genetics
  • DNA, Mitochondrial/genetics
  • Neurons/metabolism
  • Membrane Potential, Mitochondrial
  • Induced Pluripotent Stem Cells/metabolism
  • Cells, Cultured
  • Mitochondrial Diseases/genetics
  • Coculture Techniques

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