Nagarajan S, Chesla S, Cobern L, Anderson P, Zhu C, Selvaraj P
Department of Pathology and Laboratory Medicine, Emory University School of Medicine, Atlanta, Georgia 30322, USA.
J Biol Chem. 1995 Oct 27;270(43):25762-70. doi: 10.1074/jbc.270.43.25762.
CD16, the low affinity Fc gamma receptor III for IgG (Fc gamma RIII), exists as a polypeptide-anchored form (Fc gamma RIIIA or CD16A) in human natural killer cells and macrophages and as a glycosylphosphatidylinositol-anchored form (Fc gamma RIIIB or CD16B) in neutrophils. CD16A requires association of the gamma subunit of Fc epsilon RI or the zeta subunit of the TCR-CD3 complex for cell surface expression. The CD16B is polymorphic and the two alleles are termed NA1 and NA2. In this study, CD16A and the two alleles of CD16B have been expressed in Chinese hamster ovary (CHO) cells and their ligand binding and phagocytic properties analyzed. The two allelic forms of CD16B showed a similar affinity toward human IgG1. However, the NA1 allele showed approximately 2-fold higher affinity for the IgG3 than the NA2 allele. Although all three forms of CD16 efficiently bound rabbit IgG-coated erythrocytes (EA), only CD16A coexpressed with the gamma subunit phagocytosed EA. The phagocytosis mediated by CD16A expressed on CHO cells was independent of divalent cations but dependent on intact microfilaments. CHO cells expressing CD16A-gamma and CD16A-zeta chimeras also phagocytosed EA. The phagocytosis was specifically inhibited by tyrphostin-23, a tyrosine kinase inhibitor. In summary, our results demonstrate that glycosylphosphatidylinositol-anchored CD16B alleles differ from CD16A in their ability to mediate phagocytosis. Furthermore, since studies with other Fc gamma Rs have shown that CHO cells lack the phagocytic pathway mediated by the cytoplasmic domain of Fc gamma Rs, the phagocytosis of EA by CHO cells stably transfected with CD16A and CD16A-subunit chimera provides an ideal system to dissect the phagocytic signaling pathways mediated by these Fc gamma R-associated subunits.
CD16,即低亲和力IgG Fcγ受体III(FcγRIII),在人类自然杀伤细胞和巨噬细胞中以多肽锚定形式(FcγRIIIA或CD16A)存在,在中性粒细胞中以糖基磷脂酰肌醇锚定形式(FcγRIIIB或CD16B)存在。CD16A需要FcεRI的γ亚基或TCR-CD3复合物的ζ亚基结合才能在细胞表面表达。CD16B具有多态性,两个等位基因分别称为NA1和NA2。在本研究中,CD16A和CD16B的两个等位基因已在中国仓鼠卵巢(CHO)细胞中表达,并分析了它们的配体结合和吞噬特性。CD16B的两种等位基因形式对人IgG1表现出相似的亲和力。然而,NA1等位基因对IgG3的亲和力比NA2等位基因高约2倍。虽然所有三种形式的CD16都能有效结合兔IgG包被的红细胞(EA),但只有与γ亚基共表达的CD16A能吞噬EA。CHO细胞上表达的CD16A介导的吞噬作用不依赖于二价阳离子,但依赖于完整的微丝。表达CD16A-γ和CD16A-ζ嵌合体的CHO细胞也能吞噬EA。吞噬作用被酪氨酸激酶抑制剂 tyrphostin-23特异性抑制。总之,我们的结果表明,糖基磷脂酰肌醇锚定的CD16B等位基因在介导吞噬作用的能力上与CD16A不同。此外,由于对其他FcγR的研究表明,CHO细胞缺乏由FcγR细胞质结构域介导的吞噬途径,用CD16A和CD16A-亚基嵌合体稳定转染的CHO细胞对EA的吞噬作用提供了一个理想的系统,用于剖析由这些FcγR相关亚基介导的吞噬信号通路。
