Evidence of Alveolar Macrophage Metabolic Shift Following Stereotactic Body Radiation Therapy -Induced Lung Fibrosis in Mice

IF 6.5 1区医学 Q1 ONCOLOGY International Journal of Radiation Oncology Biology Physics Pub Date : 2025-02-01 Epub Date: 2024-09-14 DOI:10.1016/j.ijrobp.2024.09.018

Sarah Braga-Cohen PhD , Jérémy Lavigne PhD , Morgane Dos Santos PhD , Georges Tarlet BSc , Valérie Buard BSc , Jan Baijer PhD , Olivier Guipaud PhD , Vincent Paget PhD , Eric Deutsch MD, PhD , Mohamed Amine Benadjaoud PhD , Michele Mondini PhD , Fabien Milliat PhD , Agnès François PhD

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Abstract

Purpose

Radiation-induced pneumopathy is the main dose-limiting factor in cases of chest radiation therapy. Macrophage infiltration is frequently observed in irradiated lung tissues and may participate in lung damage development. Radiation-induced lung fibrosis can be reproduced in rodent models using whole thorax irradiation but suffers from limits concerning the role played by unexposed lung volumes in damage development.

Methods and Materials

Here, we used an accurate stereotactic body radiation therapy preclinical model irradiating 4% of the mouse lung. Tissue damage development and macrophage populations were followed by histology, flow cytometry, and single-cell RNA sequencing. Wild-type and CCR2 KO mice, in which monocyte recruitment is abrogated, were exposed to single doses of radiation, inducing progressive (60 Gy) or rapid (80 Gy) lung fibrosis.

Results

Numerous clusters of macrophages were observed around the injured area, during progressive as well as rapid fibrosis. The results indicate that probably CCR2-independent recruitment and/or in situ proliferation may be responsible for macrophage invasion. Alveolar macrophages experience a metabolic shift from fatty acid metabolism to cholesterol biosynthesis, directing them through a possible profibrotic phenotype. Depicted data revealed that the origin and phenotype of macrophages present in the injured area may differ from what has been previously described in preclinical models exposing large lung volumes, representing a potentially interesting trail in the deciphering of radiation-induced lung damage processes.

Conclusions

Our study brings new possible clues to the understanding of macrophage implications in radiation-induced lung damage, representing an interesting area for exploration in future studies.

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SBRT诱导小鼠肺纤维化后肺泡巨噬细胞代谢转变的证据。

背景：辐射诱发的肺病是胸部放射治疗的主要剂量限制因素。辐照肺组织中经常观察到巨噬细胞浸润，并可能参与肺损伤的发展。辐射诱导的肺纤维化可通过全胸照射在啮齿类动物模型中再现，但未受照射的肺体积在损伤发展中所起的作用受到限制。通过组织学、流式细胞术和单细胞 RNA 测序对组织损伤的发展和巨噬细胞的数量进行了跟踪。对野生型小鼠和CCR2 KO小鼠进行单剂量辐射，诱发进行性（60 Gy）或快速（80 Gy）肺纤维化：结果：在进行性和快速纤维化过程中，在损伤区域周围观察到大量巨噬细胞集群。结果表明，巨噬细胞的入侵可能与 CCR2 依赖性招募和/或原位增殖有关。肺泡巨噬细胞经历了从脂肪酸代谢到胆固醇生物合成的新陈代谢转变，引导它们形成可能的促纤维化表型。描述的数据显示，损伤区域巨噬细胞的来源和表型可能不同于之前在暴露于大容量肺的临床前模型中描述的巨噬细胞，这可能是破译辐射诱导的肺损伤过程的一个有趣线索：我们的研究为了解巨噬细胞在辐射诱导的肺损伤中的作用提供了新的线索，是未来研究中一个值得探索的领域。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Radiation Oncology Biology Physics 医学-核医学

CiteScore

11.00

自引率

7.10%

发文量

2538

审稿时长

6.6 weeks

期刊介绍： International Journal of Radiation Oncology • Biology • Physics (IJROBP), known in the field as the Red Journal, publishes original laboratory and clinical investigations related to radiation oncology, radiation biology, medical physics, and both education and health policy as it relates to the field. This journal has a particular interest in original contributions of the following types: prospective clinical trials, outcomes research, and large database interrogation. In addition, it seeks reports of high-impact innovations in single or combined modality treatment, tumor sensitization, normal tissue protection (including both precision avoidance and pharmacologic means), brachytherapy, particle irradiation, and cancer imaging. Technical advances related to dosimetry and conformal radiation treatment planning are of interest, as are basic science studies investigating tumor physiology and the molecular biology underlying cancer and normal tissue radiation response.