Differences in the post-stroke innate immune response between young and old.

IF 7.9 2区 医学 Q1 IMMUNOLOGY Seminars in Immunopathology Pub Date : 2023-05-01 DOI:10.1007/s00281-023-00990-8
Mattia Gallizioli, Maria Arbaizar-Rovirosa, David Brea, Anna M Planas
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引用次数: 4

Abstract

Aging is associated to progressive changes impairing fundamental cellular and tissue functions, and the relationships amongst them through the vascular and immune systems. Aging factors are key to understanding the pathophysiology of stroke since they increase its risk and worsen its functional outcome. Most currently recognised hallmarks of aging are also involved in the cerebral responses to stroke. Notably, age-associated chronic low-grade inflammation is related to innate immune responses highlighted by induction of type-I interferon. The interferon program is prominent in microglia where it interrelates cell damage, danger signals, and phagocytosis with immunometabolic disturbances and inflammation. Microglia engulfment of damaged myelin and cell debris may overwhelm the cellular capacity for waste removal inducing intracellular lipid accumulation. Acute inflammation and interferon-stimulated gene expression are also typical features of acute stroke, where danger signal recognition by microglia trigger immunometabolic alterations underscored by lipid droplet biogenesis. Aging reduces the capacity to control these responses causing increased and persistent inflammation, metabolic dysregulation, and impaired cellular waste disposal. In turn, chronic peripheral inflammation during aging induces immunosenescence further worsening stroke-induced immunodepression, thus increasing the risk of post-stroke infection. Aging also alters gut microbiota composition inducing dysbiosis. These changes are enhanced by age-related diseases, such as atherosclerosis and type-II diabetes, that further promote vascular aging, predispose to stroke, and exacerbate brain inflammation after stroke. Current advances in aging research suggest that some age-associated alterations may be reversed. Future work will unravel whether such evolving anti-aging research may enable designing strategies to improve stroke outcome in the elderly.

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年轻人和老年人中风后先天免疫反应的差异。
衰老与损害基本细胞和组织功能的进行性变化以及它们之间通过血管和免疫系统的关系有关。衰老因素是了解中风病理生理的关键,因为它们增加了中风的风险并使其功能结果恶化。目前公认的大多数衰老特征也与大脑对中风的反应有关。值得注意的是,年龄相关的慢性低度炎症与先天免疫反应有关,先天免疫反应是由i型干扰素诱导的。干扰素程序在小胶质细胞中发挥着重要作用,它将细胞损伤、危险信号和吞噬与免疫代谢紊乱和炎症联系起来。小胶质细胞吞噬受损的髓磷脂和细胞碎片可能压倒细胞清除废物的能力,诱导细胞内脂质积累。急性炎症和干扰素刺激的基因表达也是急性中风的典型特征,其中小胶质细胞对危险信号的识别引发了脂滴生物发生所强调的免疫代谢改变。衰老降低了控制这些反应的能力,导致炎症增加和持续,代谢失调,细胞废物处理受损。反过来,衰老过程中的慢性外周炎症导致免疫衰老,进一步加重脑卒中引起的免疫抑制,从而增加脑卒中后感染的风险。衰老也会改变肠道菌群组成,导致生态失调。与年龄相关的疾病,如动脉粥样硬化和ii型糖尿病,会进一步促进血管老化,易患中风,并加剧中风后的脑部炎症,从而增强这些变化。衰老研究的最新进展表明,一些与年龄相关的改变可能被逆转。未来的工作将揭示这种不断发展的抗衰老研究是否可以设计出改善老年人中风结果的策略。
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来源期刊
Seminars in Immunopathology
Seminars in Immunopathology 医学-病理学
CiteScore
19.80
自引率
2.20%
发文量
69
审稿时长
12 months
期刊介绍: The aim of Seminars in Immunopathology is to bring clinicians and pathologists up-to-date on developments in the field of immunopathology.For this purpose topical issues will be organized usually with the help of a guest editor.Recent developments are summarized in review articles by authors who have personally contributed to the specific topic.
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