Interleukin-12 Signaling Drives Alzheimer's Disease Pathology Through Disrupting Neuronal and Oligodendrocyte Homeostasis

Overview

Journal Nat Aging

Specialty Geriatrics

Date 2025 Mar 14

PMID 40082619

Authors

Shirin Schneeberger

Seung Joon Kim

Maria N Geesdorf

Ekaterina Friebel

Pascale Eede

Marina Jendrach

Anastasiya Boltengagen

Caroline Braeuning

Torben Ruhwedel

Andreas J Hulsmeier

Niclas Gimber

Marlene Foerster

Juliane Obst

Myrto Andreadou

Sarah Mundt

Jan Schmoranzer

Stefan Prokop

Wiebke Kessler

Tanja Kuhlmann

Wiebke Mobius

Klaus-Armin Nave

Thorsten Hornemann

Burkhard Becher

Julia M Edgar

Nikos Karaiskos

Christine Kocks

Nikolaus Rajewsky

Frank L Heppner

Affiliations

Soon will be listed here.

Abstract

Neuroinflammation including interleukin (IL)-12/IL-23-signaling is central to Alzheimer's disease (AD) pathology. Inhibition of p40, a subunit of IL-12/IL-23, attenuates pathology in AD-like mice; however, its signaling mechanism and expression pattern remained elusive. Here we show that IL-12 receptors are predominantly expressed in neurons and oligodendrocytes in AD-like APPPS1 mice and in patients with AD, whereas IL-23 receptor transcripts are barely detectable. Consistently, deletion of the IL-12 receptor in neuroectodermal cells ameliorated AD pathology in APPPS1 mice, whereas removal of IL-23 receptors had no effect. Genetic ablation of IL-12 signaling alone reverted the loss of mature oligodendrocytes, restored myelin homeostasis, rescued the amyloid-β-dependent reduction of parvalbumin-positive interneurons and restored phagocytosis-related changes in microglia of APPPS1 mice. Furthermore, IL-12 protein expression was increased in human AD brains compared to healthy age-matched controls, and human oligodendrocyte-like cells responded profoundly to IL-12 stimulation. We conclude that oligodendroglial and neuronal IL-12 signaling, but not IL-23 signaling, are key in orchestrating AD-related neuroimmune crosstalk and that IL-12 represents an attractive therapeutic target in AD.

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