Gruss H J, Dower S K
Department of Biochemistry, Immunex Research and Development Corp, Seattle, WA, USA.
Blood. 1995 Jun 15;85(12):3378-404.
The TNF receptor superfamily members are all type I membrane glycoproteins with typical homology in the extracellular domain of variable numbers of cysteine-rich repeats (overall homologies, 25% to 30%). In contrast, the TNF ligand superfamily members (with the exception of LT alpha) are type II membrane glycoproteins with homology to TNF in the extracellular domain (overall homologies, 20%). TNF and LT alpha are trimeric proteins and are composed of beta-strands forming a beta-jellyroll. The homology of the beta-strand regions for the TNF ligand superfamily members suggest a similar beta-sandwich structure and possible trimeric or multimeric complex formation for most or all members. A genetic linkage, as evidence for evolutionary relatedness, is found by chromosomal cluster of TNFR p80, CD30, 4-1BB, and OX40 for 1p36; TNFR p60, TNFR-RP, and CD27 for 12p13; TNF, LT alpha, and LT beta for 6 (MHC locus); CD27L and 4-1BBL for 19p13; and FASL and OX40L for 1q25. Of the TNF ligand superfamily, TNF, LT alpha, and LT beta and their receptors (TNFR p60, TNFR p80, and TNFR-RP) interact in a complex fashion of cross-binding. However, the other family members presently have a one ligand/one receptor binding principle (CD27/CD27L, CD30/CD30L, CD40/CD40L, 4-1BB/4-1BBL, OX40/gp34, and FAS/FASL). In general, the members of the TNF ligand superfamily mediate interaction between different hematopoietic cells, such as T cell/B cell, T cell/monocyte, and T cell/T cell. Signals can be transduced not only through the receptors but also through at least some of the ligands. The transduced signals can be stimulatory or inhibitory depending on the target cell or the activation state. Taken together, TNF superfamily ligands show for the immune response an involvement in the induction of cytokine secretion and the upregulation of adhesion molecules, activation antigens, and costimulatory proteins, all known to amplify stimulatory and regulatory signals. On the other hand, differences in the distribution, kinetics of induction, and requirements for induction support a defined role for each of the ligands for T-cell-mediated immune responses. The shedding of members of the TNF receptor superfamily could limit the signals mediated by the corresponding ligands as a functional regulatory mechanism. Induction of cytotoxic cell death, observed for TNF, LT alpha, CD30L, CD95L, and 4-1BBL, is another common functional feature of this cytokine family. Further studies have to identify unique versus redundant biologic and physiologic functions for each of the TNF superfamily ligands.(ABSTRACT TRUNCATED AT 400 WORDS)
肿瘤坏死因子受体超家族成员均为I型膜糖蛋白,其细胞外结构域具有典型的同源性,富含数量不等的半胱氨酸重复序列(总体同源性为25%至30%)。相比之下,肿瘤坏死因子配体超家族成员(淋巴毒素α除外)为II型膜糖蛋白,其细胞外结构域与肿瘤坏死因子具有同源性(总体同源性为20%)。肿瘤坏死因子和淋巴毒素α是三聚体蛋白,由形成β-果冻卷结构的β-链组成。肿瘤坏死因子配体超家族成员β-链区域的同源性表明,大多数或所有成员可能具有相似的β-三明治结构以及三聚体或多聚体复合物形成。作为进化相关性的证据,发现肿瘤坏死因子受体p80、CD30、4-1BB和OX40在1p36处成染色体簇;肿瘤坏死因子受体p60、肿瘤坏死因子受体相关蛋白和CD27在12p13处成染色体簇;肿瘤坏死因子、淋巴毒素α和淋巴毒素β在6号染色体(主要组织相容性复合体基因座)处成染色体簇;CD27L和4-1BBL在19p13处成染色体簇;FASL和OX40L在1q25处成染色体簇。在肿瘤坏死因子配体超家族中,肿瘤坏死因子、淋巴毒素α和淋巴毒素β及其受体(肿瘤坏死因子受体p60、肿瘤坏死因子受体p80和肿瘤坏死因子受体相关蛋白)以复杂的交叉结合方式相互作用。然而,目前其他家族成员遵循一个配体/一个受体的结合原则(CD27/CD27L、CD30/CD30L、CD40/CD40L、4-1BB/4-1BBL、OX40/gp34和FAS/FASL)。一般来说,肿瘤坏死因子配体超家族成员介导不同造血细胞之间的相互作用,如T细胞/B细胞、T细胞/单核细胞和T细胞/T细胞。信号不仅可以通过受体转导,还可以通过至少一些配体转导。根据靶细胞或激活状态,转导的信号可以是刺激性的或抑制性的。总体而言,肿瘤坏死因子超家族配体在免疫反应中参与细胞因子分泌的诱导以及黏附分子、激活抗原和共刺激蛋白的上调,所有这些都已知可放大刺激性和调节性信号。另一方面,分布、诱导动力学和诱导需求的差异支持了每种配体在T细胞介导免疫反应中的特定作用。肿瘤坏死因子受体超家族成员的脱落可能作为一种功能调节机制限制相应配体介导的信号。肿瘤坏死因子、淋巴毒素α、CD30L、CD95L和4-1BBL所观察到的细胞毒性细胞死亡诱导是该细胞因子家族的另一个常见功能特征。进一步的研究必须确定每个肿瘤坏死因子超家族配体独特的与冗余的生物学和生理学功能。(摘要截选至400词)
