Inflammation, Tau Pathology, and Synaptic Integrity Associated with Sleep Spindles and Memory Prior to β-amyloid Positivity

Overview

Journal Sleep

Publisher Oxford University Press

Specialty Psychiatry

Date 2022 Jun 7

PMID 35670275

Authors

Bryce A Mander

Abhishek Dave

Kitty K Lui

Katherine E Sprecher

Destiny Berisha

Miranda G Chappel-Farley

Ivy Y Chen

Brady A Riedner

Margo Heston

Ivonne Suridjan

Gwendlyn Kollmorgen

Henrik Zetterberg

Kaj Blennow

Cynthia M Carlsson

Ozioma C Okonkwo

Sanjay Asthana

Sterling C Johnson

Barbara B Bendlin

Ruth M Benca

Affiliations

Soon will be listed here.

Abstract

Study Objectives: Fast frequency sleep spindles are reduced in aging and Alzheimer's disease (AD), but the mechanisms and functional relevance of these deficits remain unclear. The study objective was to identify AD biomarkers associated with fast sleep spindle deficits in cognitively unimpaired older adults at risk for AD.

Methods: Fifty-eight cognitively unimpaired, β-amyloid-negative, older adults (mean ± SD; 61.4 ± 6.3 years, 38 female) enriched with parental history of AD (77.6%) and apolipoprotein E (APOE) ε4 positivity (25.9%) completed the study. Cerebrospinal fluid (CSF) biomarkers of central nervous system inflammation, β-amyloid and tau proteins, and neurodegeneration were combined with polysomnography (PSG) using high-density electroencephalography and assessment of overnight memory retention. Parallelized serial mediation models were used to assess indirect effects of age on fast frequency (13 to <16Hz) sleep spindle measures through these AD biomarkers.

Results: Glial activation was associated with prefrontal fast frequency sleep spindle expression deficits. While adjusting for sex, APOE ε4 genotype, apnea-hypopnea index, and time between CSF sampling and sleep study, serial mediation models detected indirect effects of age on fast sleep spindle expression through microglial activation markers and then tau phosphorylation and synaptic degeneration markers. Sleep spindle expression at these electrodes was also associated with overnight memory retention in multiple regression models adjusting for covariates.

Conclusions: These findings point toward microglia dysfunction as associated with tau phosphorylation, synaptic loss, sleep spindle deficits, and memory impairment even prior to β-amyloid positivity, thus offering a promising candidate therapeutic target to arrest cognitive decline associated with aging and AD.

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