Kim Dongeon, Tian Wen, Wu Timothy Ting-Hsuan, Xiang Menglan, Vinh Ryan, Chang Jason, Gu Shenbiao, Lee Seunghee, Zhu Yu, Guan Torrey, Schneider Emilie Claire, Bao Evan, Dixon J Brandon, Kao Peter, Pan Junliang, Rockson Stanley G, Jiang Xinguo, Nicolls Mark Robert
VA Palo Alto Health Care System, Palo Alto, California, USA.
Stanford University School of Medicine, Stanford, California, USA.
medRxiv. 2023 Jun 12:2023.06.08.23291175. doi: 10.1101/2023.06.08.23291175.
Lymphedema is a global health problem with no effective drug treatment. Enhanced T cell immunity and abnormal lymphatic endothelial cell (LEC) signaling are promising therapeutic targets for this condition. Sphingosine-1-phosphate (S1P) mediates a key signaling pathway required for normal LEC function, and altered S1P signaling in LECs could lead to lymphatic disease and pathogenic T cell activation. Characterizing this biology is relevant for developing much-needed therapies.
Human and mouse lymphedema was studied. Lymphedema was induced in mice by surgically ligating the tail lymphatics. Lymphedematous dermal tissue was assessed for S1P signaling. To verify the role of altered S1P signaling effects in lymphatic cells, LEC-specific -deficient ( ) mice were generated. Disease progression was quantified by tail-volumetric and -histopathological measurements over time. LECs from mice and humans, with S1P signaling inhibition, were then co-cultured with CD4 T cells, followed by an analysis of CD4 T cell activation and pathway signaling. Finally, animals were treated with a monoclonal antibody specific to P-selectin to assess its efficacy in reducing lymphedema and T cell activation.
Human and experimental lymphedema tissues exhibited decreased LEC S1P signaling through S1PR1. LEC loss-of-function exacerbated lymphatic vascular insufficiency, tail swelling, and increased CD4 T cell infiltration in mouse lymphedema. LECs, isolated from mice and co-cultured with CD4 T cells, resulted in augmented lymphocyte differentiation. Inhibiting S1PR1 signaling in human dermal LECs (HDLECs) promoted T helper type 1 and 2 (Th1 and Th2) cell differentiation through direct cell contact with lymphocytes. HDLECs with dampened S1P signaling exhibited enhanced P-selectin, an important cell adhesion molecule expressed on activated vascular cells. , P-selectin blockade reduced the activation and differentiation of Th cells co-cultured with sh -treated HDLECs. P-selectin-directed antibody treatment improved tail swelling and reduced Th1/Th2 immune responses in mouse lymphedema.
This study suggests that reduction of the LEC S1P signaling aggravates lymphedema by enhancing LEC adhesion and amplifying pathogenic CD4 T cell responses. P-selectin inhibitors are suggested as a possible treatment for this pervasive condition.
Lymphatic-specific deletion exacerbates lymphatic vessel malfunction and Th1/Th2 immune responses during lymphedema pathogenesis. -deficient LECs directly induce Th1/Th2 cell differentiation and decrease anti-inflammatory Treg populations. Peripheral dermal LECs affect CD4 T cell immune responses through direct cell contact.LEC P-selectin, regulated by S1PR1 signaling, affects CD4 T cell activation and differentiation.P-selectin blockade improves lymphedema tail swelling and decreases Th1/Th2 population in the diseased skin. S1P/S1PR1 signaling in LECs regulates inflammation in lymphedema tissue.S1PR1 expression levels on LECs may be a useful biomarker for assessing predisposition to lymphatic disease, such as at-risk women undergoing mastectomyP-selectin Inhibitors may be effective for certain forms of lymphedema.
淋巴水肿是一个全球性的健康问题,目前尚无有效的药物治疗方法。增强的T细胞免疫和异常的淋巴管内皮细胞(LEC)信号传导是针对这种疾病有前景的治疗靶点。鞘氨醇-1-磷酸(S1P)介导正常LEC功能所需的关键信号通路,LEC中S1P信号的改变可能导致淋巴疾病和致病性T细胞激活。了解这种生物学特性对于开发急需的治疗方法至关重要。
对人和小鼠的淋巴水肿进行了研究。通过手术结扎小鼠尾部淋巴管诱导淋巴水肿。对淋巴水肿的皮肤组织进行S1P信号评估。为了验证S1P信号改变在淋巴细胞中的作用,构建了LEC特异性S1PR1缺陷(S1PR1 -/-)小鼠。通过随时间的尾部体积测量和组织病理学测量对疾病进展进行量化。然后将来自小鼠和人类的、具有S1P信号抑制的LEC与CD4 T细胞共培养,随后分析CD4 T细胞的激活和信号通路。最后,用针对P-选择素的单克隆抗体治疗动物,以评估其在减轻淋巴水肿和T细胞激活方面的疗效。
人类和实验性淋巴水肿组织通过S1PR1表现出LEC S1P信号降低。LEC功能丧失加剧了小鼠淋巴水肿中的淋巴管功能不全、尾部肿胀,并增加了CD4 T细胞浸润。从S1PR1 -/-小鼠分离并与CD4 T细胞共培养的LEC导致淋巴细胞分化增强。抑制人真皮LEC(HDLEC)中的S1PR1信号通过与淋巴细胞的直接细胞接触促进1型和2型辅助性T细胞(Th1和Th2)分化。S1P信号减弱的HDLEC表现出增强的P-选择素,这是一种在活化血管细胞上表达的重要细胞粘附分子。阻断P-选择素可减少与经shRNA处理的HDLEC共培养的Th细胞的激活和分化。针对P-选择素的抗体治疗改善了小鼠淋巴水肿中的尾部肿胀,并降低了Th1/Th2免疫反应。
本研究表明,LEC S1P信号的降低通过增强LEC粘附和放大致病性CD4 T细胞反应而加重淋巴水肿。建议将P-选择素抑制剂作为这种普遍疾病的一种可能治疗方法。
淋巴特异性S1PR1缺失加剧了淋巴水肿发病过程中的淋巴管功能障碍和Th1/Th2免疫反应。S1PR1缺陷的LEC直接诱导Th1/Th2细胞分化并减少抗炎性调节性T细胞群体。外周真皮LEC通过直接细胞接触影响CD4 T细胞免疫反应。受S1PR1信号调节的LEC P-选择素影响CD4 T细胞的激活和分化。阻断P-选择素可改善淋巴水肿的尾部肿胀,并减少患病皮肤中的Th1/Th2细胞群体。LEC中的S1P/S1PR1信号调节淋巴水肿组织中的炎症。LEC上的S1PR1表达水平可能是评估淋巴疾病易感性的有用生物标志物,例如接受乳房切除术的高危女性。P-选择素抑制剂可能对某些形式的淋巴水肿有效。
