Acta Neuropathologica Communications (Apr 2023)

Patients with sporadic FTLD exhibit similar increases in lysosomal proteins and storage material as patients with FTD due to GRN mutations

  • Skylar E. Davis,
  • Anna K. Cook,
  • Justin A. Hall,
  • Yuliya Voskobiynyk,
  • Nancy V. Carullo,
  • Nicholas R. Boyle,
  • Ahmad R. Hakim,
  • Kristian M. Anderson,
  • Kierra P. Hobdy,
  • Derian A. Pugh,
  • Charles F. Murchison,
  • Laura J. McMeekin,
  • Micah Simmons,
  • Katherine A. Margolies,
  • Rita M. Cowell,
  • Alissa L. Nana,
  • Salvatore Spina,
  • Lea T. Grinberg,
  • Bruce L. Miller,
  • William W. Seeley,
  • Andrew E. Arrant

DOI
https://doi.org/10.1186/s40478-023-01571-4
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 19

Abstract

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Abstract Loss of function progranulin (GRN) mutations are a major autosomal dominant cause of frontotemporal dementia (FTD). Patients with FTD due to GRN mutations (FTD-GRN) develop frontotemporal lobar degeneration with TDP-43 pathology type A (FTLD-TDP type A) and exhibit elevated levels of lysosomal proteins and storage material in frontal cortex, perhaps indicating lysosomal dysfunction as a mechanism of disease. To investigate whether patients with sporadic FTLD exhibit similar signs of lysosomal dysfunction, we compared lysosomal protein levels, transcript levels, and storage material in patients with FTD-GRN or sporadic FTLD-TDP type A. We analyzed samples from frontal cortex, a degenerated brain region, and occipital cortex, a relatively spared brain region. In frontal cortex, patients with sporadic FTLD-TDP type A exhibited similar increases in lysosomal protein levels, transcript levels, and storage material as patients with FTD-GRN. In occipital cortex of both patient groups, most lysosomal measures did not differ from controls. Frontal cortex from a transgenic mouse model of TDP-opathy had similar increases in cathepsin D and lysosomal storage material, showing that TDP-opathy and neurodegeneration can drive these changes independently of progranulin. To investigate these changes in additional FTLD subtypes, we analyzed frontal cortical samples from patients with sporadic FTLD-TDP type C or Pick’s disease, an FTLD-tau subtype. All sporadic FTLD groups had similar increases in cathepsin D activity, lysosomal membrane proteins, and storage material as FTD-GRN patients. However, patients with FTLD-TDP type C or Pick’s disease did not have similar increases in lysosomal transcripts as patients with FTD-GRN or sporadic FTLD-TDP type A. Based on these data, accumulation of lysosomal proteins and storage material may be a common aspect of end-stage FTLD. However, the unique changes in gene expression in patients with FTD-GRN or sporadic FTLD-TDP type A may indicate distinct underlying lysosomal changes among FTLD subtypes.

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