Howlader Mir J, Ambler William G, Chalasani Madhavi Latha S, Rathod Aahna, Seltzer Ethan S, Sim Ji Hyun, Shin Jinyeon, Schwartz Noa, Shipman Iii William D, Dasoveanu Dragos C, Carballo Camila B, Sevim Ecem, Siddique Salma, Chinenov Yurii, Rodeo Scott A, Erkan Doruk, Kataru Raghu P, Mehrara Babak J, Lu Theresa T
Autoimmunity and Inflammation Program, Hospital for Special Surgery Research Institute, New York, United States of America.
Division of Plastic and Reconstructive Surgery, Department of Surgery, Memorial Sloan Kettering Cancer Center, New York, United States of America.
J Clin Invest. 2025 Apr 22. doi: 10.1172/JCI168412.
Patients with systemic lupus erythematosus (SLE) are photosensitive, developing skin inflammation with even ambient ultraviolet radiation (UVR), and this cutaneous photosensitivity can be associated with UVR-induced flares of systemic disease, which can involve increased autoantibodies and further end organ injury. Mechanistic insight into the link between the skin responses and autoimmunity is limited. Signals from skin are transmitted directly to the immune system via lymphatic vessels, and here we show evidence for potentiation of UVR-induced lymphatic flow dysfunction in SLE patients and murine models. Improving lymphatic flow by manual lymphatic drainage (MLD) or with a transgenic model with increased lymphatic vessels reduces both cutaneous inflammation and lymph node B and T cell responses, and long term MLD reduces splenomegaly and titers of a number of autoantibodies. Mechanistically, improved flow restrains B cell responses in part by stimulating a lymph node fibroblastic reticular cell-monocyte axis. Our results point to lymphatic modulation of lymph node stromal function as a link between photosensitive skin responses and autoimmunity and as a therapeutic target in lupus, provide insight into mechanisms by which the skin state regulates draining lymph node function, and suggest the possibility of MLD as an accessible and cost-effective adjunct to add to ongoing medical therapies for lupus and related diseases.
系统性红斑狼疮(SLE)患者具有光敏性,即使在环境紫外线辐射(UVR)下也会出现皮肤炎症,这种皮肤光敏性可能与UVR诱导的全身性疾病发作有关,全身性疾病发作可能涉及自身抗体增加和进一步的终末器官损伤。对皮肤反应与自身免疫之间联系的机制性认识有限。皮肤发出的信号通过淋巴管直接传递给免疫系统,在此我们展示了SLE患者和小鼠模型中UVR诱导的淋巴流动功能障碍增强的证据。通过手动淋巴引流(MLD)或使用淋巴管增多的转基因模型改善淋巴流动,可减少皮肤炎症以及淋巴结B细胞和T细胞反应,长期进行MLD可减轻脾肿大并降低多种自身抗体的滴度。从机制上讲,改善淋巴流动部分是通过刺激淋巴结成纤维细胞网状细胞 - 单核细胞轴来抑制B细胞反应。我们的结果表明,淋巴结基质功能的淋巴调节是光敏性皮肤反应与自身免疫之间的联系以及狼疮的治疗靶点,为皮肤状态调节引流淋巴结功能的机制提供了见解,并提示MLD作为一种可及且经济高效的辅助手段添加到正在进行的狼疮及相关疾病医学治疗中的可能性。
