Alzheimer’s Research & Therapy (Aug 2019)

Late-stage Anle138b treatment ameliorates tau pathology and metabolic decline in a mouse model of human Alzheimer’s disease tau

  • Matthias Brendel,
  • Maximilian Deussing,
  • Tanja Blume,
  • Lena Kaiser,
  • Federico Probst,
  • Felix Overhoff,
  • Finn Peters,
  • Barbara von Ungern-Sternberg,
  • Sergey Ryazanov,
  • Andrei Leonov,
  • Christian Griesinger,
  • Andreas Zwergal,
  • Johannes Levin,
  • Peter Bartenstein,
  • Igor Yakushev,
  • Paul Cumming,
  • Guido Boening,
  • Sibylle Ziegler,
  • Jochen Herms,
  • Armin Giese,
  • Axel Rominger

DOI
https://doi.org/10.1186/s13195-019-0522-z
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 11

Abstract

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Abstract Background Augmenting the brain clearance of toxic oligomers with small molecule modulators constitutes a promising therapeutic concept against tau deposition. However, there has been no test of this concept in animal models of Alzheimer’s disease (AD) with initiation at a late disease stage. Thus, we aimed to investigate the effects of interventional late-stage Anle138b treatment, which previously indicated great potential to inhibit oligomer accumulation by binding of pathological aggregates, on the metabolic decline in transgenic mice with established tauopathy in a longitudinal 18F-fluorodeoxyglucose positron emission tomography (FDG-PET) study. Methods Twelve transgenic mice expressing all six human tau isoforms (hTau) and ten controls were imaged by FDG-PET at baseline (14.5 months), followed by randomization into Anle138b treatment and vehicle groups for 3 months. FDG-PET was repeated after treatment for 3 months, and brains were analyzed by tau immunohistochemistry. Longitudinal changes of glucose metabolism were compared between study groups, and the end point tau load was correlated with individual FDG-PET findings. Results Tau pathology was significantly ameliorated by late-stage Anle138b treatment when compared to vehicle (frontal cortex − 53%, p < 0.001; hippocampus − 59%, p < 0.005). FDG-PET revealed a reversal of metabolic decline during Anle138b treatment, whereas the vehicle group showed ongoing deterioration. End point glucose metabolism in the brain of hTau mice had a strong correlation with tau deposition measured by immunohistochemistry (R = 0.92, p < 0.001). Conclusion Late-stage oligomer modulation effectively ameliorated tau pathology in hTau mice and rescued metabolic function. Molecular imaging by FDG-PET can serve for monitoring effects of Anle138b treatment.

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