Communications Biology (Oct 2023)

A novel mouse model of mitochondrial disease exhibits juvenile-onset severe neurological impairment due to parvalbumin cell mitochondrial dysfunction

  • Elizaveta A. Olkhova,
  • Carla Bradshaw,
  • Alasdair Blain,
  • Debora Alvim,
  • Doug M. Turnbull,
  • Fiona E. N. LeBeau,
  • Yi Shiau Ng,
  • Gráinne S. Gorman,
  • Nichola Z. Lax

DOI
https://doi.org/10.1038/s42003-023-05238-7
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 17

Abstract

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Abstract Mitochondrial diseases comprise a common group of neurometabolic disorders resulting from OXPHOS defects, that may manifest with neurological impairments, for which there are currently no disease-modifying therapies. Previous studies suggest inhibitory interneuron susceptibility to mitochondrial impairment, especially of parvalbumin-expressing interneurons (PV+). We have developed a mouse model of mitochondrial dysfunction specifically in PV+ cells via conditional Tfam knockout, that exhibited a juvenile-onset progressive phenotype characterised by cognitive deficits, anxiety-like behaviour, head-nodding, stargazing, ataxia, and reduced lifespan. A brain region-dependent decrease of OXPHOS complexes I and IV in PV+ neurons was detected, with Purkinje neurons being most affected. We validated these findings in a neuropathological study of patients with pathogenic mtDNA and POLG variants showing PV+ interneuron loss and deficiencies in complexes I and IV. This mouse model offers a drug screening platform to propel the discovery of therapeutics to treat severe neurological impairment due to mitochondrial dysfunction.