Department of Neurology, Thomas Jefferson University, Philadelphia, PA, USA.
Neuroimmunology Unit, National and Kapodistrian University, University of Athens Medical School, Athens, Greece.
Expert Rev Clin Immunol. 2022 Jul;18(7):691-701. doi: 10.1080/1744666X.2022.2082946. Epub 2022 Jun 23.
Several patients with myasthenia gravis (MG) do not adequately respond to available drugs or exhibit poor tolerance, necessitating the need for new therapies.
The paper discusses the rapidly evolving target-specific immunotherapies that promise long-standing remissions in the management of MG. It is specifically focused on the role of complement, anti-complement therapeutics, and the anti-FcRn and B cell monoclonals.
Anti-AChR antibodies cause internalization of the receptors and activate complement leading to MAC formation that damages the post-synaptic membrane of the neuromuscular junction. Inhibiting MAC formation by antibodies targeting key complements subcomponents is a reasonable therapeutic goal. Indeed, the anti-C5 monoclonal antibodies, , have been successfully tested in MG with Eculizumab first and now Ravulizumab FDA-approved for refractory MG based on sustained long-term benefits. Among the biologics that inhibit FcRn, caused rapid reduction of the circulating IgG in the lysosomes, and induced sustained clinical remission with good safety profile leading to FDA-approved indication. Anti-B cell agents, like Rituximab, can induce sustained long-term remissions, especially in IgG4 antibody-mediated Musk-MG, by targeting short-lived antibody-secreting plasmablasts. These biologics offer effective targeted immunotherapies with good tolerance promising to change the therapeutic algorithm in the chronic MG management.
一些重症肌无力 (MG) 患者对现有药物反应不佳或耐受性差,需要新的治疗方法。
本文讨论了针对特定靶点的免疫疗法的快速发展,这些疗法有望在 MG 的治疗中实现长期缓解。本文特别关注补体、抗补体疗法以及抗 FcRn 和 B 细胞单克隆抗体的作用。
AChR 抗体导致受体内化,并激活补体,导致 MAC 形成,从而破坏神经肌肉接头的突触后膜。通过针对关键补体亚成分的抗体抑制 MAC 形成是一个合理的治疗目标。事实上,抗 C5 单克隆抗体 、 已在 MG 中成功进行了测试,Eculizumab 首先获批,现在 Ravulizumab 也因持续的长期获益而获得 FDA 批准用于难治性 MG。在抑制 FcRn 的生物制剂中, 可在溶酶体中快速减少循环 IgG,并诱导持续的临床缓解,安全性良好,因此获得 FDA 批准。抗 B 细胞药物,如利妥昔单抗,通过靶向寿命短的抗体分泌浆母细胞,可诱导 IgG4 抗体介导的 Musk-MG 的持续长期缓解。这些生物制剂提供了有效的靶向免疫疗法,具有良好的耐受性,有望改变慢性 MG 管理的治疗算法。
