Yokota K, Ariizumi K, Kitajima T, Bergstresser P R, Street N E, Takashima A
Department of Dermatology, University of Texas South-Western Medical Center, Dallas 75235, USA.
J Immunol. 1996 Aug 15;157(4):1529-37.
Murine epidermis contains two leukocyte populations: Langerhans cells (LC), which are APC of dendritic cell (DC) lineage, and dendritic epidermal T cells (DETC), which are members of the tissue-type gamma delta T cell family. Despite close physical approximation in vivo, the extent to which LC and DETC affect each other's function has remained unknown. We addressed this question using the long term DC line XS52 and the gamma delta T cell line 7-17, both of which were established from mouse epidermis, and both of which retain important features of the resident populations from which they were derived. XS52 DC proliferated maximally when cocultured with gamma-irradiated 7-17 DETC. They also proliferated in response to culture supernatants collected from anti-CD3- or Con A-activated 7-17 DETC, but not from nonstimulated DETC. In both systems, DETC-induced XS52 DC growth was inhibited partially (up to 70%) by Abs against granulocyte/macrophage CSF (GM-CSF) or CD115 (CSF-1 receptor) and nearly completely (up to 90%) by both together. Among 28 tested cytokines, only GM-CSF, CSF-1, IL-4, and IL-13 promoted XS52 DC growth significantly. Anti-IL-4 failed to inhibit DETC-induced XS52 cell growth, and IL-4 was not detectable in DETC supernatants. Thus, we conclude that GM-CSF and CSF-1 (and perhaps IL-13) account for the DC growth-promoting activity secreted by DETC. These results suggest that during coculture, XS52 DC activate 7-17 DETC to secrete both GM-CSF and CSF-1. In fact, when cultured with XS52 DC, 7-17 DETC also elevated their expression of the gamma c receptor and acquired proliferative responsiveness to their own growth factor IL-15. We propose that LC and DETC in situ may interact with each other in a similar manner, thereby regulating their residence and function.
朗格汉斯细胞(LC),它是树突状细胞(DC)谱系的抗原呈递细胞;以及树突状表皮T细胞(DETC),它是组织型γδT细胞家族的成员。尽管在体内它们在物理位置上非常接近,但LC和DETC相互影响对方功能的程度仍然未知。我们使用长期培养的DC系XS52和γδT细胞系7-17来解决这个问题,这两个细胞系均从小鼠表皮建立,并且都保留了它们所源自的驻留细胞群体的重要特征。当与经γ射线照射的7-17 DETC共培养时,XS52 DC的增殖达到最大值。它们也会对从抗CD3或刀豆蛋白A激活的7-17 DETC收集的培养上清液产生增殖反应,但对未刺激的DETC的培养上清液无反应。在这两种系统中,针对粒细胞/巨噬细胞集落刺激因子(GM-CSF)或CD115(CSF-1受体)的抗体可部分抑制(高达70%)DETC诱导的XS52 DC生长,而两者共同作用时则几乎完全抑制(高达90%)。在28种测试的细胞因子中,只有GM-CSF、CSF-1、IL-4和IL-13能显著促进XS52 DC生长。抗IL-4未能抑制DETC诱导的XS52细胞生长,并且在DETC上清液中未检测到IL-4。因此,我们得出结论,GM-CSF和CSF-1(可能还有IL-13)是DETC分泌的促进DC生长活性的原因。这些结果表明,在共培养过程中,XS52 DC激活7-17 DETC分泌GM-CSF和CSF-1。事实上,当与XS52 DC一起培养时,7-17 DETC也会提高其γc受体的表达,并获得对自身生长因子IL-15的增殖反应性。我们提出,原位的LC和DETC可能以类似的方式相互作用,从而调节它们的驻留和功能。
