Calin-Laurens V, Forquet F, Mottez E, Kanellopoulos J, Godeau F, Kourilsky P, Gerlier D, Rabourdin-Combe C
Immunobiologie Moléculaire, UMR 49, CNRS-ENS Lyon, France.
Eur J Immunol. 1991 Mar;21(3):761-9. doi: 10.1002/eji.1830210332.
A way to study the role of intracellular trafficking of an antigen in its presentation to T cells is to target the antigen to various cell compartments of the antigen-presenting cells (APC) and compare the nature of the complexes associating major histocompatibility complex (MHC) molecules and antigenic peptides, expressed on the cell surface. MHC class I+ and MHC class II+ mouse L fibroblasts secreting hen egg lysozyme (HELs cells) or expressing HEL in their cytosol (HELc cells) were obtained after transfection with HEL cDNA and signal sequence-deleted HEL cDNA, respectively. HEL was evidenced in both HELs- and HELc-transfected cells and the former type of transfectant secreted a large amount of HEL. However, HEL produced in the cytosol exhibited a short half-life of less than 5 min. HEL-derived peptides could not be shown biochemically either in HELc- nor in HELs-transfected cells. We then studied the capacity of these cells to present HEL to HEL-specific class I- and class II-restricted T cells. Both cell types could be recognized by the HEL-specific MHC class I-restricted CTL clones. In contrast, MHC class II-HEL peptide complexes, recognized by HEL-specific helper T cell hybridomas, could be detected on MHC class II+ HELs- but not HELc-transfected cells. In vivo experiments showed, however, that HELc-transfected cells could provide host APC with HELc-derived peptides able to associate with MHC class II molecules. This was inferred from the capacity of MHC class II-HELc-transfected cells, unable by themselves to elicit any anti-HEL antibody response, to prime syngeneic and allogeneic mice against HEL. The priming was revealed by the induction of an antibody response after a boost with an amount of HEL unable itself to elicit an antibody response.
研究抗原细胞内运输在其呈递给T细胞过程中作用的一种方法是将抗原靶向抗原呈递细胞(APC)的不同细胞区室,并比较细胞表面表达的主要组织相容性复合体(MHC)分子与抗原肽所形成复合物的性质。分别用溶菌酶(HEL)cDNA和信号序列缺失的HEL cDNA转染后,获得了分泌HEL的MHC I类和MHC II类小鼠L成纤维细胞(HELs细胞)或在其胞质溶胶中表达HEL的细胞(HELc细胞)。在转染了HELs和HELc的细胞中均证实了HEL的存在,并且前一种转染细胞分泌了大量的HEL。然而,在胞质溶胶中产生的HEL半衰期较短,不到5分钟。无论是在转染了HELc的细胞还是转染了HELs的细胞中,均无法通过生化方法显示出源自HEL的肽。然后,我们研究了这些细胞将HEL呈递给HEL特异性I类和II类限制性T细胞的能力。两种细胞类型均可被HEL特异性MHC I类限制性CTL克隆识别。相反,可在MHC II + HELs转染的细胞上检测到被HEL特异性辅助性T细胞杂交瘤识别的MHC II-HEL肽复合物,而在转染了HELc的细胞上则未检测到。然而,体内实验表明,转染了HELc的细胞可以为宿主APC提供能够与MHC II类分子结合的源自HELc的肽。这是从MHC II-HELc转染的细胞本身无法引发任何抗HEL抗体反应,但能够启动同基因和异基因小鼠针对HEL的免疫反应推断出来的。在用一定量的HEL进行加强免疫后诱导出抗体反应,从而揭示了这种启动作用,而该量的HEL本身无法引发抗体反应。
