Alzheimer’s & Dementia: Translational Research & Clinical Interventions (Jan 2021)

The association of circulating amylin with β‐amyloid in familial Alzheimer's disease

  • Han Ly,
  • Nirmal Verma,
  • Savita Sharma,
  • Deepak Kotiya,
  • Sanda Despa,
  • Erin L. Abner,
  • Peter T. Nelson,
  • Gregory A. Jicha,
  • Donna M. Wilcock,
  • Larry B. Goldstein,
  • Rita Guerreiro,
  • José Brás,
  • Angela J. Hanson,
  • Suzanne Craft,
  • Andrew J. Murray,
  • Geert Jan Biessels,
  • Claire Troakes,
  • Henrik Zetterberg,
  • John Hardy,
  • Tammaryn Lashley,
  • AESG,
  • Florin Despa

DOI
https://doi.org/10.1002/trc2.12130
Journal volume & issue
Vol. 7, no. 1
pp. n/a – n/a

Abstract

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Abstract Introduction This study assessed the hypothesis that circulating human amylin (amyloid‐forming) cross‐seeds with amyloid beta (Aβ) in early Alzheimer's disease (AD). Methods Evidence of amylin‐AD pathology interaction was tested in brains of 31 familial AD mutation carriers and 20 cognitively unaffected individuals, in cerebrospinal fluid (CSF) (98 diseased and 117 control samples) and in genetic databases. For functional testing, we genetically manipulated amylin secretion in APP/PS1 and non‐APP/PS1 rats. Results Amylin‐Aβ cross‐seeding was identified in AD brains. High CSF amylin levels were associated with decreased CSF Aβ42 concentrations. AD risk and amylin gene are not correlated. Suppressed amylin secretion protected APP/PS1 rats against AD‐associated effects. In contrast, hypersecretion or intravenous injection of human amylin in APP/PS1 rats exacerbated AD‐like pathology through disruption of CSF‐brain Aβ exchange and amylin‐Aβ cross‐seeding. Discussion These findings strengthened the hypothesis of circulating amylin‐AD interaction and suggest that modulation of blood amylin levels may alter Aβ‐related pathology/symptoms.

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