Inhibiting USP16 Rescues Stem Cell Aging and Memory in an Alzheimer's Model

Overview

Journal Elife

Specialty Biology

Date 2022 Mar 21

PMID 35311644

Authors

Felicia Reinitz

Elizabeth Y Chen

Benedetta Nicolis di Robilant

Bayarsaikhan Chuluun

Jane Antony

Robert C Jones

Neha Gubbi

Karen Lee

William Hai Dang Ho

Sai Saroja Kolluru

Dalong Qian

Maddalena Adorno

Katja Piltti

Aileen Anderson

Michelle Monje

H Craig Heller

Stephen R Quake

Michael F Clarke

Affiliations

Soon will be listed here.

Abstract

Alzheimer's disease (AD) is a progressive neurodegenerative disease observed with aging that represents the most common form of dementia. To date, therapies targeting end-stage disease plaques, tangles, or inflammation have limited efficacy. Therefore, we set out to identify a potential earlier targetable phenotype. Utilizing a mouse model of AD and human fetal cells harboring mutant amyloid precursor protein, we show cell intrinsic neural precursor cell (NPC) dysfunction precedes widespread inflammation and amyloid plaque pathology, making it the earliest defect in the evolution of the disease. We demonstrate that reversing impaired NPC self-renewal genetic reduction of USP16, a histone modifier and critical physiological antagonist of the Polycomb Repressor Complex 1, can prevent downstream cognitive defects and decrease astrogliosis in vivo. Reduction of USP16 led to decreased expression of senescence gene and mitigated aberrant regulation of the Bone Morphogenetic Signaling (BMP) pathway, a previously unknown function of USP16. Thus, we reveal USP16 as a novel target in an AD model that can both ameliorate the NPC defect and rescue memory and learning through its regulation of both and BMP signaling.

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