Tang A, Udey M C
Dermatology Branch, National Cancer Institute, National Institutes of Health, Bethesda, MD 20892.
J Immunol. 1991 May 15;146(10):3347-55.
Immunosuppressive effects of low levels of ultraviolet B (UVB) radiation on cutaneous immune responses have been attributed to deleterious effects of UVB radiation on epidermal Langerhans cells (LC). To determine how UVB radiation modulates LC function we examined the effect of in vitro UVB exposure on LC accessory cell activity and surface phenotype. Exposure of BALB/c murine epidermal cells to low dose (less than or equal to 200 J/m2) UVB radiation in vitro inhibited their ability to support the mitogenic response of unstimulated, accessory cell-depleted splenic T cells to anti-CD3 mAb. LC accessory cell activity was also inhibited when LC were exposed to UVB radiation in situ, although several-fold higher doses of UVB radiation were required to achieve complete inhibition of LC function. This dose-dependent inhibition was mediated through a direct effect on LC that could not be reversed by IL-1 or IL-6 alone or in combination, or granulocyte-macrophage-CSF. TNF-alpha did not inhibit LC accessory cell function in this assay and anti-TNF-alpha neutralizing antibodies did not reverse the inhibitory effects of UVB radiation. UVB irradiated LC failed to participate in the anti-CD3-dependent clustering that normally occurs between T cells and LC during the proliferative response of murine T cells to anti-CD3 mAb, suggesting that UV radiation may interfere with accessory cell function by preventing intercellular adhesion. Two-color flow cytometric studies revealed low levels of the ICAM-1 on freshly isolated LC and some keratinocytes. ICAM-1 expression on LC increased 15 to 20-fold within the first 24 h in vitro and continued to increase during a 72-h culture period. The integrin LFA-1 was not identified on freshly isolated or cultured LC but was detected on responding T cells. Prior exposure of LC to UVB radiation (50 or 100 J/m2) inhibited the increase in ICAM-1 expression that normally occurs in vitro by up to 70% whereas surface levels of class II MHC Ag, CD45 and Fc-gamma receptors were not affected. Blocking studies revealed that anti-CD3 induced T cell proliferation and T cell-LC cluster formation was inhibited by both anti-LFA-1 and anti-ICAM-1 mAb suggesting that ICAM-1 expressed on LC must bind to LFA-1 on T cells to facilitate proliferative responses of T cells to anti-CD3 mAb. We conclude that the in vitro inhibitory effects of low dose UVB radiation on LC accessory function may result because UVB radiation prevents upregulation of ICAM-1 expression by LC in culture.(ABSTRACT TRUNCATED AT 250 WORDS)
低水平紫外线B(UVB)辐射对皮肤免疫反应的免疫抑制作用归因于UVB辐射对表皮朗格汉斯细胞(LC)的有害影响。为了确定UVB辐射如何调节LC功能,我们研究了体外UVB照射对LC辅助细胞活性和表面表型的影响。体外将BALB/c小鼠表皮细胞暴露于低剂量(小于或等于200 J/m2)UVB辐射会抑制其支持未刺激的、辅助细胞缺失的脾T细胞对抗CD3单克隆抗体的促有丝分裂反应的能力。当LC原位暴露于UVB辐射时,LC辅助细胞活性也受到抑制,尽管需要几倍高剂量的UVB辐射才能完全抑制LC功能。这种剂量依赖性抑制是通过对LC的直接作用介导的,单独或联合使用IL-1或IL-6或粒细胞-巨噬细胞集落刺激因子都无法逆转。在该实验中,TNF-α不抑制LC辅助细胞功能,抗TNF-α中和抗体也不能逆转UVB辐射的抑制作用。UVB照射的LC未能参与小鼠T细胞对抗CD3单克隆抗体增殖反应期间T细胞与LC之间正常发生的抗CD3依赖性聚集,这表明紫外线辐射可能通过阻止细胞间粘附来干扰辅助细胞功能。双色流式细胞术研究显示,新鲜分离的LC和一些角质形成细胞上ICAM-1水平较低。LC上ICAM-1的表达在体外培养的最初24小时内增加了15至20倍,并在72小时培养期内持续增加。在新鲜分离或培养的LC上未鉴定出整合素LFA-1,但在反应性T细胞上检测到。预先将LC暴露于UVB辐射(50或100 J/m2)可使体外正常发生的ICAM-1表达增加受到高达70%的抑制,而II类MHC抗原、CD45和Fc-γ受体的表面水平不受影响。阻断研究表明,抗CD3诱导的T细胞增殖和T细胞-LC簇形成受到抗LFA-1和抗ICAM-1单克隆抗体的抑制,这表明LC上表达的ICAM-1必须与T细胞上的LFA-1结合,以促进T细胞对抗CD3单克隆抗体的增殖反应。我们得出结论,低剂量UVB辐射对LC辅助功能的体外抑制作用可能是因为UVB辐射阻止了培养中LC对ICAM-1表达的上调。(摘要截短于250字)
