Muczynski K A, Anderson S K, Pious D
Department of Pediatrics, University of Washington, Seattle 98195, USA.
J Immunol. 1998 Apr 1;160(7):3207-16.
We compared HLA class II expression in a human melanoma line (a nonprofessional APC), induced by IFN-gamma or by stable transfection with CIITA, with constitutive class II expression in an EBV-transformed B lymphoblastoid cell line (a professional APC) from the same donor. IFN-gamma-induced and CIITA-transfected melanoma cells expressed DR, DP, and DQ at levels similar to those expressed by the professional APC; however, DP and DQ proteins and DM-dependent DR epitopes were delayed in appearing on the cell surface when induced by IFN-gamma. The delay in cell surface expression of some IFN-gamma-induced class II epitopes was observed even though Northern blots demonstrated class II and DM genes to be coordinately transcribed and their mRNA levels to be equivalent to that in B lymphoblastoid cells. Confocal microscopy suggests that discoordinate cell surface expression of class II results from different intracellular trafficking for IFN-gamma-induced class II proteins in the melanoma line compared with that in professional APCs. Specifically, although DR and DM proteins were present 2 days after IFN-gamma induction, colocalization of DR and DM proteins intracellularly was not apparent in cells at any time after induction. Failure of DR and DM proteins to colocalize suggests that IFN-gamma-induced cells lack an intracellular MIIC-like compartment. The absence of a compartment containing DR and DM to facilitate interaction between the two proteins may account for the delayed surface expression of class II epitopes whose formation requires both class II and DM.
我们比较了人黑色素瘤细胞系(一种非专职抗原呈递细胞)中,由γ干扰素诱导或通过稳定转染CIITA所诱导的HLA - II类分子表达,与来自同一供体的EB病毒转化的B淋巴母细胞系(一种专职抗原呈递细胞)中组成性的II类分子表达。γ干扰素诱导的和CIITA转染的黑色素瘤细胞表达DR、DP和DQ的水平,与专职抗原呈递细胞所表达的水平相似;然而,当由γ干扰素诱导时,DP和DQ蛋白以及依赖DM的DR表位在细胞表面出现的时间延迟。即使Northern印迹显示II类和DM基因是协同转录的,并且它们的mRNA水平与B淋巴母细胞中的相当,但仍观察到一些γ干扰素诱导的II类表位在细胞表面表达延迟。共聚焦显微镜检查表明,II类分子在细胞表面的不协调表达,是由于黑色素瘤细胞系中γ干扰素诱导的II类蛋白与专职抗原呈递细胞中的细胞内运输不同所致。具体而言,尽管在γ干扰素诱导后2天存在DR和DM蛋白,但诱导后任何时间细胞内DR和DM蛋白的共定位都不明显。DR和DM蛋白未能共定位表明,γ干扰素诱导的细胞缺乏细胞内类似MHC II类分子富含小室(MIIC)的区室。缺乏一个包含DR和DM以促进这两种蛋白相互作用的区室,可能解释了其形成需要II类分子和DM的II类表位在表面表达延迟的原因。
