Faculty, Staff and Student Publications

Language

English

Publication Date

2-1-2026

Journal

Comprehensive Physiology

DOI

10.1002/cph4.70097

PMID

41496612

PMCID

PMC12775720

PubMedCentral® Posted Date

1-6-2026

PubMedCentral® Full Text Version

Post-print

Abstract

Accelerated bone loss has been reported in the early stages of Alzheimer's disease (AD) as indicated by reduced bone mineral density and increased fracture risk in these patients, compared to healthy individuals. In the present study, we investigated bone loss in mouse models of familial Alzheimer's disease harboring the Presenilin 1 (L166P) knock-in mutation (PSEN1 KI), with or without the human amyloid precursor protein transgene (hAPP Tg+) known to induce brain amyloid pathology by 6 months. Female and not male 12-month PSEN1/hAPP Tg+ mice exhibited reduced whole-body bone mineral density and bone mineral content, compared to sex-matched controls. Consistent with PSEN1 L166P driving the phenotype, female PSEN1 KI mice lacking the hAPP transgene also displayed low bone mass with a reduction in bone microarchitecture observed as early as 1 month of age. Correspondingly, PSEN1 KI mice exhibit reduced cortical and trabecular bone mass compared to age- and sex-matched control mice. The loss of bone microarchitecture was largely attributed to a reduction in bone formation as indicated by decreases in serum P1NP levels and osteoblast ALP activity and mRNA expression in vitro. At the ages examined, PSEN1 KI mice exhibited increased follicle stimulating hormone (FSH) levels, which is known to cause a decrease in bone mass. Western blotting also identified both PSEN1 and amyloid-beta protein expression in bone and brain tissue. Taken together, the data indicate that female-specific bone loss in familial AD is potentially due to the direct actions of mutant PSEN1 in bone cells combined with systemic crosstalk caused by brain-expressed PSEN1 L116P.

Keywords

Animals, Presenilin-1, Alzheimer Disease, Female, Mice, Male, Disease Models, Animal, Mice, Transgenic, Humans, Bone Density, Mutation, Amyloid beta-Protein Precursor, aging, Alzheimer's disease, bone mass, mechanical function, presenilin 1, sex hormones

Published Open-Access

yes

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