Resolvin D1 可抑制老龄小鼠巨噬细胞衰老和脾脏纤维化

IF 3
Anouk G. Groenen , Masharh Lipscomb , Ramon Bossardi Ramos , Sudeshna Sadhu , Venetia Bazioti , Gabrielle Fredman , Marit Westerterp
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引用次数: 0

摘要

衰老与全身性非消炎性炎症和衰老细胞的积累有关。炎症的消退(或炎症消退)在一定程度上是由专门的促消退介质(SPMs)和促炎性白三烯(LTs)之间的平衡介导的。老龄小鼠(即 2 岁)的特定器官(包括脾脏)中 SPM 与 LT 的比例显著下降,这表明该器官的炎症可能加剧,尤其适合 SPM 治疗。先前的研究表明,与年轻对照组相比,老年小鼠脾脏中的resolvin D1(RvD1)含量降低。因此,我们想知道治疗老年小鼠的 RvD1 是否会影响脾脏巨噬细胞的细胞衰老标记物,以及对脾脏纤维化(脾脏衰老的标志)的下游影响。我们发现,在老龄小鼠体内,由酶联免疫吸附素诱导的脾巨噬细胞和脾巨噬细胞中的炎症基因和类二十碳烷生物合成基因的 mRNA 表达量都有所增加,参与细胞周期的基因也出现了失调。注射 RvD1 可逆转这些变化。重要的是,RvD1 还能减少脾脏纤维化,这是脾脏衰老的一个标志。我们的研究结果表明,RvD1 治疗可限制衰老的几个特征,包括衰老小鼠脾脏的衰老和纤维化。炎症的消退部分是由专门的促消退介质(SPMs)和促炎症脂质介质(如白三烯类化合物(LTs))之间的平衡介导的。衰老的一个标志是衰老细胞的积累,这些细胞通过分泌促炎细胞因子和脂质介质促进低度炎症。脾巨噬细胞会导致全身性衰老,而衰老小鼠脾脏中名为 resolvin D1(RvD1)的 SPM 水平会下降。添加 RvD1 是否对衰老小鼠的脾脏有保护作用尚不清楚,这也是本研究的重点。与年龄匹配的载体对照组相比,RvD1 处理老年小鼠后,脾脏巨噬细胞中细胞衰老和炎症标志物的 mRNA 表达量减少。此外,RvD1还能减少脾脏纤维化,而脾脏纤维化是由于衰老过程中持续的低度炎症引起的。因此,用 RvD1 促进炎症消退可限制巨噬细胞衰老、促炎症信号和衰老过程中形成的脾脏纤维化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Resolvin D1 suppresses macrophage senescence and splenic fibrosis in aged mice

Aging is associated with systemic, non-resolving inflammation and the accumulation of senescent cells. The resolution of inflammation (or inflammation-resolution) is in part mediated by the balance between specialized pro-resolving mediators (SPMs) and pro-inflammatory leukotrienes (LTs). Aged mice (i.e. 2 years of age) exhibit a significant decrease in the SPM:LT ratio in specific organs including the spleen, which suggests that this organ may exhibit heightened inflammation and may be particularly amenable to SPM therapy. Previous studies have shown that resolvin D1 (RvD1) is decreased in spleens of aged mice compared with young controls. Therefore, we asked whether treatment of RvD1 in aged mice would impact markers of cellular senescence in splenic macrophages, and downstream effects on splenic fibrosis, a hallmark of splenic aging. We found that in aged mice, both zymosan-elicited and splenic macrophages showed an increase in mRNA expression of inflammatory and eicosanoid biosynthesis genes and a dysregulation of genes involved in the cell cycle. Injections with RvD1 reversed these changes. Importantly, RvD1 also decreased splenic fibrosis, a hallmark of splenic aging. Our findings suggest that RvD1 treatment may limit several features of aging, including senescence and fibrosis in spleens from aged mice.

Summary

Aging is associated with systemic, low grade, non-resolving inflammation. The resolution of inflammation is in part mediated by the balance between specialized pro-resolving mediators (SPMs) and pro-inflammatory lipid mediators, like leukotrienes (LTs). A hallmark of aging is the accumulation of senescent cells that promote low grade inflammation by secreting pro-inflammatory cytokines and lipid mediators. Splenic macrophages contribute to systemic aging, and spleens of aged mice demonstrate decreased levels of the SPM called resolvin D1 (RvD1). Whether addition of RvD1 is protective in spleens of aged mice is unknown and is focus of this study. RvD1 treatment to aged mice led to decreased mRNA expression of markers of cellular senescence and inflammation in splenic macrophages compared with age-matched vehicle controls. Moreover, RvD1 decreased splenic fibrosis, which occurs due to persistent low-grade inflammation in aging. Promoting inflammation resolution with RvD1 thus limits macrophage senescence, pro-inflammatory signals and established splenic fibrosis in aging.

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来源期刊
Prostaglandins, leukotrienes, and essential fatty acids
Prostaglandins, leukotrienes, and essential fatty acids Clinical Biochemistry, Endocrinology, Diabetes and Metabolism
CiteScore
5.30
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