系统性红斑狼疮的抗淋巴细胞抗体。

Clinics in rheumatic diseases Pub Date : 1985-12-01
J B Winfield
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引用次数: 0

摘要

通过补体依赖性细胞毒性和免疫荧光测定,系统性红斑狼疮患者经常产生抗淋巴细胞抗体。两种主要IgM和IgG的最高滴度都发生在活动性疾病的阶段,它们的存在基本上与这种疾病的整个免疫系统功能异常有关。虽然抗体的全范围特异性需要进一步澄清,但已经描述了许多离散淋巴细胞群的抗体,包括B细胞,T细胞和T细胞亚群。针对T细胞亚群的抗体之所以引起人们的特别关注,是因为它们与体内亚群消耗的关系,以及它们在体外通过对正常细胞的影响,再现与SLE患者分离的淋巴细胞相同类型的免疫调节异常的能力。抑制/诱导剂和抑制/效应T细胞似乎是这方面的主要目标。也存在针对活化T淋巴细胞的特异性抗体,这种类型的抗体具有干扰白细胞介素-2产生/反应的操作事件的不寻常特性,白细胞介素-2是控制特异性反应性T细胞扩增和诱导其他淋巴因子的关键步骤。除了补体介导的裂解和抗体依赖的细胞介导的细胞毒性外,抗淋巴细胞抗体还可能通过几种非细胞毒性机制影响免疫系统功能,包括表面抗原调节和配体/受体触发。尽管已经积累了大量关于抗淋巴细胞抗体在SLE中的细胞类型特异性和功能效应的数据,但对其反应的表面膜分子的性质知之甚少。细胞克隆和分子生物学技术的应用将在不久的将来弥补这一不足。虽然抗淋巴细胞抗体可能与SLE的免疫系统病理生理相关,但这些有趣的抗体是反映了继发性事件,还是具有更根本的意义,仍有待确定。
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Anti-lymphocyte antibodies in systemic lupus erythematosus.

Patients with systemic lupus erythematosus frequently develop antilymphocyte antibodies as measured by complement-dependent cytotoxicity and immunofluorescence assays. Highest titres of both of the major IgM and IgG classes occur during phases of active disease, and their presence is associated with essentially the entire spectrum of immune system functional abnormalities in this disorder. While the full range of antibody specificities requires further clarification, antibodies to many discrete lymphocyte populations have been described, including B cells, T cells, and T cell subsets. Antibodies to T cell subsets are of special interest because of their relationship with subset depletion in vivo, and their capacity to reproduce, through effects on normal cells in vitro, the same types of immunoregulatory abnormalities characteristic of lymphocytes isolated from patients with SLE. Suppressor/inducer and suppressor/effector T cells appear to be the main targets in this regard. Antibodies specific for activated T lymphocytes exist as well, and this type has the unusual property of interfering with events operant in production of/response to interleukin-2, a critical step controlling the expansion of specifically-reactive T cells and the induction of other lymphokines. In addition to complement-mediated lysis and antibody-dependent cell-mediated cytotoxicity, anti-lymphocyte antibodies have the potential to influence immune system function by several non-cytotoxic mechanisms, including surface antigen modulation and ligand/receptor triggering. Despite the large amount of data which has been accumulated concerning the cell type specificity and functional effects of anti-lymphocyte antibodies in SLE, little is known about the nature of the surface membrane molecules with which they react. Application of cell cloning and molecular biology technology should rectify this deficiency in the near future. Although it is likely that antilymphocyte antibodies are of relevance to immune system pathophysiology in SLE, it remains to be determined whether these interesting antibodies reflect secondary events, or have some more fundamental significance.

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