Tomlinson M G, Hanke T, Hughes D A, Barclay A N, Scholl E, Hünig T, Wright M D
MRC Cellular Immunology Unit, Sir William Dunn School of Pathology University of Oxford, GB.
Eur J Immunol. 1995 Aug;25(8):2201-5. doi: 10.1002/eji.1830250813.
The pan-leukocyte antigen CD53 is a member of the poorly understood transmembrane 4 superfamily (TM4SF) of cell membrane glycoproteins. CD53 is proposed to play a role in thymopoiesis, since rat CD53 is expressed on immature CD4-8-thymocytes and the functionally mature single-positive subset, but is largely absent from the intermediate CD4+8+ cells. We have characterized CD53 in the mouse through the production of two new monoclonal antibodies, MRC OX-79 and OX-80, which were raised against the RAW 264 cell line and screened on recombinant CD53 fusion proteins. The epitopes recognized by both antibodies are dependent on disulfide bonding and map to the major extracellular region of CD53, requiring the presence of a single threonine residue at position 154. Mouse CD53 has a molecular mass of 35-45 kDa and is expressed on virtually all peripheral leukocytes, but not on cells outside the lymphoid or myeloid lineages. CD53 expression distinguishes subpopulations of thymocytes in the mouse and resembles the expression pattern of rat CD53. Amongst the immature CD4-8-thymocytes, mouse CD53 is clearly detectable on the earliest CD44high25- subset, but down-regulated on the later CD44high25+, CD44low25+ and CD44low25- stages. Also, the subsequent transient TcR-/low CD4-8+ cells and most CD4+8+ thymocytes express little or no CD53. This is consistent with the idea that cells which are committed to enter the selectable CD4+8+ compartment switch off CD53. The effect of T cell receptor (TcR) engagement on the re-expression of CD53 on CD4+8+ thymocytes was studied both ex vivo and in vitro using F5 mice, transgenic for the H-2b/influenza nucleoprotein-peptide-specific TcR, back-crossed onto an H-2q or H-2b background of RAG-2-deficient mice. CD4+8+ thymocytes from non-selecting H-2q F5 mice are CD53 negative, but in vitro stimulation through the TcR dramatically induces CD53 expression. In contrast, a fraction of CD4+8+ thymocytes from positively selecting H-2b F5 transgenic mice express CD53. Therefore TcR engagement by selecting major histocompatibility complex peptide complexes, or surrogate ligands, induces CD53 expression on otherwise CD53-negative, non-selected CD4+8+ thymocytes. Whether CD53 itself participates as a signaling molecule in further stages of thymic selection is still a matter of speculation.
全白细胞抗原CD53是细胞膜糖蛋白中了解较少的跨膜4超家族(TM4SF)的成员。由于大鼠CD53在未成熟的CD4 - 8 - 胸腺细胞和功能成熟的单阳性亚群上表达,但在中间的CD4 + 8 +细胞中基本不存在,因此有人提出CD53在胸腺细胞生成中起作用。我们通过制备两种新的单克隆抗体MRC OX - 79和OX - 80对小鼠CD53进行了表征,这两种抗体是针对RAW 264细胞系产生的,并在重组CD53融合蛋白上进行筛选。两种抗体识别的表位都依赖于二硫键,并且定位到CD53的主要细胞外区域,需要在第154位存在单个苏氨酸残基。小鼠CD53的分子量为35 - 45 kDa,几乎在所有外周白细胞上表达,但在淋巴或髓系谱系以外的细胞上不表达。CD53的表达区分了小鼠胸腺细胞的亚群,并且类似于大鼠CD53的表达模式。在未成熟的CD4 - 8 - 胸腺细胞中,小鼠CD53在最早的CD44高25 -亚群上清晰可检测到,但在随后的CD44高25 +、CD44低25 +和CD44低25 -阶段下调。此外,随后短暂的TcR - /低CD4 - 8 +细胞和大多数CD4 + 8 +胸腺细胞几乎不表达或不表达CD53。这与致力于进入可选择的CD4 + 8 +区室的细胞关闭CD53的观点一致。使用F5小鼠(其转基因表达H - 2b /流感核蛋白肽特异性TcR,并回交到RAG - 2缺陷小鼠的H - 2q或H - 2b背景上)在体外和体内研究了T细胞受体(TcR)结合对CD4 + 8 +胸腺细胞上CD53重新表达的影响。来自非选择的H - 2q F5小鼠的CD4 + 8 +胸腺细胞是CD53阴性的,但通过TcR进行体外刺激会显著诱导CD53表达。相反,来自阳性选择的H - 2b F5转基因小鼠的一部分CD4 + 8 +胸腺细胞表达CD53。因此,通过选择主要组织相容性复合体肽复合物或替代配体使TcR结合,会在原本CD53阴性的未选择的CD4 + 8 +胸腺细胞上诱导CD53表达。CD53本身是否作为信号分子参与胸腺选择的进一步阶段仍是一个推测的问题。
