线粒体DNA
线粒体
炎症
线粒体生物发生
疾病
发病机制
活性氧
医学
特应性皮炎
生物
干扰素
免疫学
信号转导
生物信息学
粒线体疾病
亚临床感染
白癜风
巨噬细胞
DNA损伤
机制(生物学)
神经科学
线粒体ROS
药理学
评论文章
作者
Mei Li,Guowei Zhao,Guowei Zhao,Jie Shen
摘要
Mitochondrial dysfunction critically underpins the pathogenesis of inflammatory skin diseases such as psoriasis, vitiligo, atopic dermatitis, and impaired wound healing. This comprehensive review synthesizes recent evidence to elucidate mechanisms, including compromised bioenergetics, excessive reactive oxygen species (ROS), mitochondrial DNA (mtDNA) damage, and aberrant mitochondrial dynamics. Distinct from prior work, this analysis uncovers novel findings: mtDNA acts as a damage-associated molecular pattern, activating cyclic GMP-AMP synthase-stimulator of interferon genes (cGAS-STING) pathways to drive type I interferon in vitiligo and IL-17A in psoriasis; succinate-mediated immune-metabolic signaling amplifies type 2 inflammation in atopic dermatitis; and subclinical mitochondrial impairments in non-lesional skin serve as early indicators of disease susceptibility across these conditions. Preclinical studies have shown that emerging therapies, including antioxidants (e.g., NMN), mitochondrial modulators (e.g., SS31), senotherapeutics, and mitochondrial transplantation, are promising strategies for restoring cellular function. Future research should focus on multi-omics to dissect mitochondrial-epigenetic interactions, validate mitochondrial metabolites like succinate as diagnostic biomarkers, and explore synergistic combination therapies. This integrative framework of mitochondrial-driven pathology provides fresh perspectives to advance diagnostic and therapeutic innovation in dermatology.
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