Clonal hematopoiesis-associated motoric deficits caused by monocyte-derived microglia accumulating in aging mice

Netherlands Brain Bank

doi:10.1016/j.celrep.2025.115609

Clonal hematopoiesis-associated motoric deficits caused by monocyte-derived microglia accumulating in aging mice

Netherlands Brain Bank

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

Microglia are parenchymal brain macrophages that are established during embryogenesis and form a self-containing cellular compartment that resists seeding with cells derived from adult definitive hematopoiesis. We report that monocyte-derived macrophages (MoMΦs) accumulate in the brain of aging mice with distinct topologies, including the nigrostriatum and medulla but not the frontal cortex. Parenchymal MoMΦs adopt bona fide microglia morphology and expression profiles. Due to their hematopoietic stem cell (HSC) derivation, monocyte-derived microglia (MoMg) are unlike yolk-sac-derived cells, targets of clonal hematopoiesis (CH). Indeed, using a chimeric transfer model, we show that the hematopoietic expression of DNMT3A^R882H, a prominent human CH variant, renders MoMg pathogenic and promotes motor deficits resembling atypical Parkinsonian disorders. Collectively, we establish that MoMg progressively seed the brain of healthy aging mice, accumulate in selected areas, and, when carrying a somatic mutation associated with CH, can cause brain pathology.

Original language	English
Article number	115609
Journal	Cell Reports
Volume	44
Issue number	5
DOIs	https://doi.org/10.1016/j.celrep.2025.115609
State	Published - 27 May 2025
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

ARCH
CH
CHIP
CP: Immunology
CP: Neuroscience
DNMT3A R882H
HSC
brain macrophages
clonal hematopoiesis
microglia
monocytes

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

Access to Document

10.1016/j.celrep.2025.115609

Cite this

@article{d28a6800e5e540d7b6c2cfff29ccc95b,

title = "Clonal hematopoiesis-associated motoric deficits caused by monocyte-derived microglia accumulating in aging mice",

abstract = "Microglia are parenchymal brain macrophages that are established during embryogenesis and form a self-containing cellular compartment that resists seeding with cells derived from adult definitive hematopoiesis. We report that monocyte-derived macrophages (MoMΦs) accumulate in the brain of aging mice with distinct topologies, including the nigrostriatum and medulla but not the frontal cortex. Parenchymal MoMΦs adopt bona fide microglia morphology and expression profiles. Due to their hematopoietic stem cell (HSC) derivation, monocyte-derived microglia (MoMg) are unlike yolk-sac-derived cells, targets of clonal hematopoiesis (CH). Indeed, using a chimeric transfer model, we show that the hematopoietic expression of DNMT3AR882H, a prominent human CH variant, renders MoMg pathogenic and promotes motor deficits resembling atypical Parkinsonian disorders. Collectively, we establish that MoMg progressively seed the brain of healthy aging mice, accumulate in selected areas, and, when carrying a somatic mutation associated with CH, can cause brain pathology.",

keywords = "ARCH, CH, CHIP, CP: Immunology, CP: Neuroscience, DNMT3A R882H, HSC, brain macrophages, clonal hematopoiesis, microglia, monocytes",

author = "\{Netherlands Brain Bank\} and Kim, \{Jung Seok\} and S{\'e}bastien Trzebanski and Shin, \{Sun Hye\} and Lior Schori and \{Frumer Friedman\}, \{Gal Ronit\} and Ilani, \{Noa Chapal\} and Aditee Kadam and Rocio Vicario and Oliver Aust and Polina Bugaeva and Sylwia Piatek and Ismajli, \{Laura Kate\} and Hoffmann, \{Christian Johannes\} and Marina Scheller and Sigalit Boura-Halfon and Nathali Kaushansky and Ofra Golani and Aryeh Solomon and Zhaoyuan Liu and Lukas Amann and Philipp B{\"o}hm-Sturm and Koch, \{Stefan Paul\} and Nikolaus Wenger and Florent Ginhoux and Marco Prinz and Roi Avraham and Christoph Harms and Frederic Geissmann and Carsten M{\"u}ller-Tidow and Stefan Uderhardt and Ivan Milenkovic and Liran Shlush and Steffen Jung",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s)",

year = "2025",

month = may,

day = "27",

doi = "10.1016/j.celrep.2025.115609",

language = "English",

volume = "44",

journal = "Cell Reports",

issn = "2639-1856",

publisher = "Elsevier BV",

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TY - JOUR

T1 - Clonal hematopoiesis-associated motoric deficits caused by monocyte-derived microglia accumulating in aging mice

AU - Netherlands Brain Bank

AU - Kim, Jung Seok

AU - Trzebanski, Sébastien

AU - Shin, Sun Hye

AU - Schori, Lior

AU - Frumer Friedman, Gal Ronit

AU - Ilani, Noa Chapal

AU - Kadam, Aditee

AU - Vicario, Rocio

AU - Aust, Oliver

AU - Bugaeva, Polina

AU - Piatek, Sylwia

AU - Ismajli, Laura Kate

AU - Hoffmann, Christian Johannes

AU - Scheller, Marina

AU - Boura-Halfon, Sigalit

AU - Kaushansky, Nathali

AU - Golani, Ofra

AU - Solomon, Aryeh

AU - Liu, Zhaoyuan

AU - Amann, Lukas

AU - Böhm-Sturm, Philipp

AU - Koch, Stefan Paul

AU - Wenger, Nikolaus

AU - Ginhoux, Florent

AU - Prinz, Marco

AU - Avraham, Roi

AU - Harms, Christoph

AU - Geissmann, Frederic

AU - Müller-Tidow, Carsten

AU - Uderhardt, Stefan

AU - Milenkovic, Ivan

AU - Shlush, Liran

AU - Jung, Steffen

PY - 2025/5/27

Y1 - 2025/5/27

N2 - Microglia are parenchymal brain macrophages that are established during embryogenesis and form a self-containing cellular compartment that resists seeding with cells derived from adult definitive hematopoiesis. We report that monocyte-derived macrophages (MoMΦs) accumulate in the brain of aging mice with distinct topologies, including the nigrostriatum and medulla but not the frontal cortex. Parenchymal MoMΦs adopt bona fide microglia morphology and expression profiles. Due to their hematopoietic stem cell (HSC) derivation, monocyte-derived microglia (MoMg) are unlike yolk-sac-derived cells, targets of clonal hematopoiesis (CH). Indeed, using a chimeric transfer model, we show that the hematopoietic expression of DNMT3AR882H, a prominent human CH variant, renders MoMg pathogenic and promotes motor deficits resembling atypical Parkinsonian disorders. Collectively, we establish that MoMg progressively seed the brain of healthy aging mice, accumulate in selected areas, and, when carrying a somatic mutation associated with CH, can cause brain pathology.

AB - Microglia are parenchymal brain macrophages that are established during embryogenesis and form a self-containing cellular compartment that resists seeding with cells derived from adult definitive hematopoiesis. We report that monocyte-derived macrophages (MoMΦs) accumulate in the brain of aging mice with distinct topologies, including the nigrostriatum and medulla but not the frontal cortex. Parenchymal MoMΦs adopt bona fide microglia morphology and expression profiles. Due to their hematopoietic stem cell (HSC) derivation, monocyte-derived microglia (MoMg) are unlike yolk-sac-derived cells, targets of clonal hematopoiesis (CH). Indeed, using a chimeric transfer model, we show that the hematopoietic expression of DNMT3AR882H, a prominent human CH variant, renders MoMg pathogenic and promotes motor deficits resembling atypical Parkinsonian disorders. Collectively, we establish that MoMg progressively seed the brain of healthy aging mice, accumulate in selected areas, and, when carrying a somatic mutation associated with CH, can cause brain pathology.

KW - ARCH

KW - CH

KW - CHIP

KW - CP: Immunology

KW - CP: Neuroscience

KW - DNMT3A R882H

KW - HSC

KW - brain macrophages

KW - clonal hematopoiesis

KW - microglia

KW - monocytes

UR - https://www.scopus.com/pages/publications/105003226455

U2 - 10.1016/j.celrep.2025.115609

DO - 10.1016/j.celrep.2025.115609

M3 - Article

C2 - 40279248

AN - SCOPUS:105003226455

SN - 2639-1856

VL - 44

JO - Cell Reports

JF - Cell Reports

IS - 5

M1 - 115609

ER -

Clonal hematopoiesis-associated motoric deficits caused by monocyte-derived microglia accumulating in aging mice

Abstract

UN SDGs

Keywords

ASJC Scopus subject areas

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