Generation and pathogenicity of autoantibodies associated to thrombosis and hemostasis

Jean Amiral
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Abstract

Many acquired bleeding and thrombotic complications are provoked by autoantibodies to blood coagulation factors, or to hemostasis inhibitors and regulatory proteins. If occurrence of those antibodies remains rare or ultra-rare, affected patients are not always well-identified and associated pathologies are not always understood. Today, autoantigens tend to be better characterized. New available methods allow investigating structural changes of body components, responsible for auto-immunization. This renders it possible to develop laboratory assays for detecting autoantibodies and estimating their blood concentration. This review analyzes the major autoantibodies reported to be associated with hemorrhagic or thrombotic pathologies and their possible inducing causes when known. Pathogenicity is strongly patient- and context-dependent and is related to autoantibodies’ concentration, avidity, and capacity to bind to autoantigen structures in-vivo, misdirecting the immune system to the own body’s cells or organs. Identification of autoantigens allows for developing laboratory methods for testing autoantibodies and following their evolution kinetics. In-vitro investigations concern functional assays, to evaluate autoantibody’s capacity to inhibit physiological activities, or autoantigen-capture-based assays to detect autoantibodies, like with enzyme-linked immuno-sorbent assay (ELISA) methods. Exploring patients with autoimmune complications remains difficult as few specific assays are available. They mainly concern diseases with the highest incidence, like anti-phospholipid antibodies, lupus anticoagulants, or heparin-dependent antibodies. The present understanding suggests that antibodies to ubiquitous components, like phospholipids or polysaccharides, are actually targeted to proteins with a strong affinity binding to those components: Autoantibodies are not directed to phospholipids, but to phospholipid-binding proteins, and heparin-dependent antibodies are not directed to anticoagulant polysaccharides, but to platelet factor 4. Most pathogenic autoantibodies are of immunoglobulin G (IgG) isotype, but in some cases, IgM or IgA isotypes can be involved. Identification and characterization of autoantibodies associated to hemorrhagic or thrombotic pathologies remains complex at the laboratory level, although they are of high relevance for the right management of concerned patients.
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与血栓形成和止血有关的自身抗体的产生和致病性
许多后天性出血和血栓并发症都是由凝血因子或止血抑制剂和调节蛋白的自身抗体引起的。如果这些抗体的出现仍然罕见或超乎寻常,受影响的患者就不一定能被很好地识别,相关的病理变化也不一定能被理解。如今,自身抗原的特征越来越清晰。现有的新方法可以研究导致自身免疫的身体成分的结构变化。这使得开发实验室检测自身抗体和估计其血液浓度成为可能。本综述分析了据报道与出血性或血栓性病症有关的主要自身抗体,以及已知的可能诱因。致病性与患者和环境密切相关,并与自身抗体的浓度、亲和力以及在体内与自身抗原结构结合的能力有关,从而将免疫系统误导至自身的细胞或器官。确定自身抗原后,就可以开发实验室方法来检测自身抗体并跟踪其演变动力学。体外研究涉及功能检测,以评估自身抗体抑制生理活动的能力,或基于自身抗原捕获的检测自身抗体的方法,如酶联免疫吸附试验(ELISA)方法。由于可用的特异性检测方法很少,因此对患有自身免疫并发症的患者进行检测仍然很困难。它们主要涉及发病率最高的疾病,如抗磷脂抗体、狼疮抗凝物或肝素依赖性抗体。目前的认识表明,针对无处不在的成分(如磷脂或多糖)的抗体实际上是针对与这些成分有很强亲和力的蛋白质:自身抗体并非针对磷脂,而是针对磷脂结合蛋白;肝素依赖性抗体并非针对抗凝多糖,而是针对血小板因子 4。大多数致病性自身抗体为免疫球蛋白 G(IgG)同型,但在某些病例中也可能涉及 IgM 或 IgA 同型。与出血性或血栓性病症相关的自身抗体的鉴定和特征描述在实验室层面上仍然很复杂,尽管它们与相关患者的正确治疗密切相关。
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