Institute of Molecular Health Sciences, Department of Biology, ETH Zürich, Zürich, Switzerland.
Functional Genomics Center, ETH Zurich and University of Zurich, Zürich, Switzerland.
Sci Immunol. 2022 Jul;7(73):eabj5761. doi: 10.1126/sciimmunol.abj5761. Epub 2022 Jul 1.
Various lung insults can result in replacement of resident alveolar macrophages (AM) by bone marrow monocyte-derived (BMo)-AM. However, the dynamics of this process and its long-term consequences for respiratory viral infections remain unclear. Using several mouse models and a marker to unambiguously track fetal monocyte-derived (FeMo)-AM and BMo-AM, we established the kinetics and extent of replenishment and their function to recurrent influenza A virus (IAV) infection. A massive loss of FeMo-AM resulted in rapid replenishment by self-renewal of survivors, followed by the generation of BMo-AM. BMo-AM progressively outcompeted FeMo-AM over several months, and this was due to their increased glycolytic and proliferative capacity. The presence of both naïve and experienced BMo-AM conferred severe pathology to IAV infection, which was associated with a proinflammatory phenotype. Furthermore, upon aging of naïve mice, FeMo-AM were gradually replaced by BMo-AM, which contributed to IAV disease severity in a cell-autonomous manner. Together, our results suggest that the origin rather than training of AM determines long-term function to respiratory viral infection and provide an explanation for the increased severity of infection seen in the elderly.
各种肺部损伤可导致驻留的肺泡巨噬细胞(AM)被骨髓单核细胞衍生的(BMo)-AM 替代。然而,这个过程的动态及其对呼吸道病毒感染的长期后果仍不清楚。使用几种小鼠模型和一个明确追踪胎儿单核细胞衍生(FeMo)-AM 和 BMo-AM 的标记物,我们确定了补充的动力学和程度及其对反复流感 A 病毒(IAV)感染的功能。大量 FeMo-AM 的损失导致幸存者的自我更新迅速补充,随后产生 BMo-AM。几个月来,BMo-AM 逐渐取代了 FeMo-AM,这是由于它们增加的糖酵解和增殖能力。幼稚和有经验的 BMo-AM 的存在使 IAV 感染产生严重的病理,这与促炎表型有关。此外,在幼稚小鼠衰老时,FeMo-AM 逐渐被 BMo-AM 取代,这以细胞自主的方式导致 IAV 疾病的严重程度增加。总之,我们的结果表明,AM 的起源而不是训练决定了其对呼吸道病毒感染的长期功能,并为老年人感染严重程度增加提供了解释。
