TY - BOOK
T1 - Radiotherapy induces persistent innate immune reprogramming of microglia into a primed state
AU - Voshart, Daniëlle C
AU - Oshima, Takuya
AU - Jiang, Yuting
AU - van der Linden, Gideon P
AU - Ainslie, Anna P
AU - Reali Nazario, Luiza
AU - van Buuren-Broek, Fleur
AU - Scholma, Ayla C
AU - van Weering, Hilmar R J
AU - Brouwer, Nieske
AU - Sewdihal, Jeffrey
AU - Brouwer, Uilke
AU - Coppes, Rob P
AU - Holtman, Inge R
AU - Eggen, Bart J L
AU - Kooistra, Susanne M
AU - Barazzuol, Lara
N1 - Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.
PY - 2024/2/27
Y1 - 2024/2/27
N2 - Over half of patients with brain tumors experience debilitating and often progressive cognitive decline after radiotherapy treatment. Microglia, the resident macrophages in the brain, have been implicated in this decline. In response to various insults, microglia can develop innate immune memory (IIM), which can either enhance (priming or training) or repress (tolerance) the response to subsequent inflammatory challenges. Here, we investigate whether radiation affects the IIM of microglia by irradiating the brains of rats and later exposing them to a secondary inflammatory stimulus. Comparative transcriptomic profiling and protein validation of microglia isolated from irradiated rats show a stronger immune response to a secondary inflammatory insult, demonstrating that radiation can lead to long-lasting molecular reprogramming of microglia. Transcriptomic analysis of postmortem normal-appearing non-tumor brain tissue of patients with glioblastoma indicates that radiation-induced microglial priming is likely conserved in humans. Targeting microglial priming or avoiding further inflammatory insults could decrease radiotherapy-induced neurotoxicity.
AB - Over half of patients with brain tumors experience debilitating and often progressive cognitive decline after radiotherapy treatment. Microglia, the resident macrophages in the brain, have been implicated in this decline. In response to various insults, microglia can develop innate immune memory (IIM), which can either enhance (priming or training) or repress (tolerance) the response to subsequent inflammatory challenges. Here, we investigate whether radiation affects the IIM of microglia by irradiating the brains of rats and later exposing them to a secondary inflammatory stimulus. Comparative transcriptomic profiling and protein validation of microglia isolated from irradiated rats show a stronger immune response to a secondary inflammatory insult, demonstrating that radiation can lead to long-lasting molecular reprogramming of microglia. Transcriptomic analysis of postmortem normal-appearing non-tumor brain tissue of patients with glioblastoma indicates that radiation-induced microglial priming is likely conserved in humans. Targeting microglial priming or avoiding further inflammatory insults could decrease radiotherapy-induced neurotoxicity.
U2 - 10.1016/j.celrep.2024.113764
DO - 10.1016/j.celrep.2024.113764
M3 - Report
C2 - 38358885
VL - 43
T3 - Cell reports
BT - Radiotherapy induces persistent innate immune reprogramming of microglia into a primed state
ER -