iScience (Apr 2023)

Oxytocin attenuates microglial activation and restores social and non-social memory in APP/PS1 Alzheimer model mice

  • Maria Clara Selles,
  • Juliana T.S. Fortuna,
  • Yasmin P.R. de Faria,
  • Luciana Domett Siqueira,
  • Ricardo Lima-Filho,
  • Beatriz M. Longo,
  • Robert C. Froemke,
  • Moses V. Chao,
  • Sergio T. Ferreira

Journal volume & issue
Vol. 26, no. 4
p. 106545

Abstract

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Summary: Alzheimer’s disease (AD) is characterized by neurodegeneration, memory loss, and social withdrawal. Brain inflammation has emerged as a key pathogenic mechanism in AD. We hypothesized that oxytocin, a pro-social hypothalamic neuropeptide with anti-inflammatory properties, could have therapeutic actions in AD. Here, we investigated oxytocin expression in experimental models of AD, and evaluated the therapeutic potential of treatment with oxytocin. Amyloid-β peptide oligomers (AβOs) reduced oxytocin expression in vitro and in vivo, and treatment with oxytocin prevented microglial activation induced by AβOs in purified microglial cultures. Treatment of aged APP/PS1 mice, a mouse model of AD, with intranasal oxytocin attenuated microglial activation and favored deposition of Aβ in dense core plaques, a potentially neuroprotective mechanism. Remarkably, treatment with oxytocin alleviated social and non-social memory impairments in aged APP/PS1 mice. Our findings point to oxytocin as a potential therapeutic target to reduce brain inflammation and correct memory deficits in AD.

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