Frontiers in Pharmacology (Jun 2021)

A ß-Secretase Modulator Decreases Tau Pathology and Preserves Short-Term Memory in a Mouse Model of Neurofibrillary Degeneration

  • Marie Tautou,
  • Sabiha Eddarkaoui,
  • Sabiha Eddarkaoui,
  • Florian Descamps,
  • Paul-Emmanuel Larchanché,
  • Jamal El Bakali,
  • Liesel Mary Goveas,
  • Mélanie Dumoulin,
  • Chloé Lamarre,
  • David Blum,
  • David Blum,
  • Luc Buée,
  • Luc Buée,
  • Patricia Melnyk,
  • Nicolas Sergeant,
  • Nicolas Sergeant

DOI
https://doi.org/10.3389/fphar.2021.679335
Journal volume & issue
Vol. 12

Abstract

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Identifying which among several in cellulo pharmacological activities is necessary for the proper in vivo activity is essential for further drug development against Alzheimer’s disease pathophysiological processes. An in-depth structure–activity relationship–based study has been carried out, and two molecules, named MAGS02-14 and PEL24-199, that share a ß-secretase modulatory effect associated or not to a lysosomotropic activity in cellulo have been identified. In terms of chemical formulas, MAGS02-14 and PEL24-199 only differ from each other by a single nitrogen atom. The study aimed to elucidate the in vivo pharmacological effects of lysosomotropic and/or the ß-secretase modulatory activity in a tau pathology mouse model. To address this question, the THY-Tau22 transgenic model of tauopathy was treated with both compounds for 6 weeks in a curative paradigm. Short-term memory, tau burden, and inflammatory processes were analyzed using orthogonal methods, and PEL24-199, but not MAGS02-14, was shown to restore the short-term memory and reduce the neurofibrillary degenerating process. These effects were associated with a reduced phosphorylation of tau, an increased phosphatase expression, and decreased astrogliosis. Our results, therefore, suggest that the lysosomotropic activity may be nonessential for the effect on tau pathology.

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