Spruyt L L, Glennie M J, Beyers A D, Williams A F
Medical Research Council Cellular Immunology Unit, Sir William Dunn School of Pathology, University of Oxford, United Kingdom.
J Exp Med. 1991 Dec 1;174(6):1407-15. doi: 10.1084/jem.174.6.1407.
Crosslinking of CD2 antigen on T lymphocytes and natural killer (NK) cells leads to a rise in cytoplasmic-free Ca2+ concentration ([Ca2+]i). However, CD2 seems unlikely to interact directly with the second messenger pathways since signaling via CD2 is poor in T cells that lack the T cell receptor (TCR) and is absent in L cells or insect cells that express CD2. In contrast, NK cells that are also TCR- can be triggered via CD2, but it is unclear as to whether the CD16 Fc receptor (FcR) may facilitate this effect. The CD16 transmembrane molecule is expressed in a complex with the zeta homodimer or the zeta/gamma heterodimer and these dimers are also associated with the TCR complex. Thus, it seemed that zeta chains may provide the link between signaling on NK cells and T cells. This could be tested on TCR- cells since when CD16 is transfected into T cells it is expressed in a complex with TCR zeta homodimer or the zeta/gamma heterodimer. At first, potentiation of CD2 signaling was seen on TCR- Jurkat cells expressing CD16, but this was found to be dependent on trace levels (1%) of IgG in F(ab')2 antibody preparations. With pure F(ab')2, the effect was lost. Signaling on a rat NK cell line was also re-examined with F(ab')2 antibodies that had no IgG contamination, and again no signal transduction via CD2 was seen. We thus conclude that there is no clear evidence for potent signaling via CD2 on cells that lack a TCR complex and that TCR zeta chain expressed at the cell surface is not sufficient to potentiate signaling via CD2 as measured by an increase in [Ca2+]i.
T淋巴细胞和自然杀伤(NK)细胞上CD2抗原的交联导致细胞质游离Ca2+浓度([Ca2+]i)升高。然而,CD2似乎不太可能直接与第二信使途径相互作用,因为在缺乏T细胞受体(TCR)的T细胞中,通过CD2的信号传导较弱,而在表达CD2的L细胞或昆虫细胞中则不存在。相比之下,同样缺乏TCR的NK细胞可以通过CD2被触发,但尚不清楚CD16 Fc受体(FcR)是否会促进这种效应。CD16跨膜分子与ζ同二聚体或ζ/γ异二聚体形成复合物表达,并且这些二聚体也与TCR复合物相关。因此,似乎ζ链可能提供NK细胞和T细胞信号传导之间的联系。这可以在缺乏TCR的细胞上进行测试,因为当CD16转染到T细胞中时,它会与TCR ζ同二聚体或ζ/γ异二聚体形成复合物表达。起初,在表达CD16的缺乏TCR的Jurkat细胞上观察到CD2信号增强,但发现这依赖于F(ab')2抗体制剂中微量水平(1%)的IgG。使用纯F(ab')2时,这种效应消失。还用没有IgG污染的F(ab')2抗体重新检查了大鼠NK细胞系上的信号传导,同样没有观察到通过CD2的信号转导。因此,我们得出结论,没有明确证据表明在缺乏TCR复合物的细胞上通过CD2有有效的信号传导,并且如通过[Ca2+]i增加所测量的,细胞表面表达的TCR ζ链不足以增强通过CD2的信号传导。