抗原呈递
免疫系统
DNA损伤
生物
自噬
抗原
主要组织相容性复合体
抗原处理
免疫学
炎症
细胞生物学
巨噬细胞
DNA
DNA修复
核DNA
细胞核
机制(生物学)
dna疫苗
自身免疫
核蛋白
豁免特权
免疫
分子生物学
获得性免疫系统
T细胞
作者
George Niotis,Ermioni S. Arvanitaki,Emmanouil Theodorakis,Adrian Schmalen,Thomas Juretschke,Orestis Argyros,Konstantinos C. Tsolis,George Βertsias,Ηλίας Δράκος,Petra Beli,George A. Garinis
标识
DOI:10.1038/s43587-025-01053-3
摘要
Aging and DNA damage increase the risk of chronic inflammation and autoimmunity, yet the molecular underpinnings remain unclear. In this study, we uncover a DNA damage-driven mechanism in macrophages that triggers immune autoreactivity. Here, using Er1Lyz2/- mice with a macrophage-specific DNA repair defect in ERCC1-XPF, we demonstrate that monocyte-derived macrophages accumulate DNA damage, activate the immune system, drive polyclonal T cell responses and generate antinuclear autoantibodies. Proteomic and immunopeptidomic analyses reveal a distinct major histocompatibility complex class II (MHC-II) antigen repertoire enriched in nuclear and ribosomal peptides, relying on autophagy for nuclear cargo delivery to MHC-II. Aged macrophages exhibit a similar lysosomal cargo profile, linking autophagy-driven nuclear antigen presentation to immune activation. Notably, inhibiting autophagy in Er1Lyz2/- mice suppresses autoimmune features, pinpointing autophagy-facilitated nuclear antigen processing as a central driver of age-related autoimmunity. These findings establish DNA damage-induced autophagy in macrophages as a pivotal mechanism linking aging to autoimmunity, unveiling potential therapeutic targets to mitigate age-related immune dysregulation.
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