Fcgamma receptor-dependent effector mechanisms regulate CD19 and CD20 antibody immunotherapies for B lymphocyte malignancies and autoimmunity.

Springer seminars in immunopathology Pub Date : 2006-12-01 Epub Date: 2006-11-08 DOI:10.1007/s00281-006-0057-9
Thomas F Tedder, Aris Baras, Yan Xiu
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引用次数: 81

Abstract

Immunotherapy using Rituximab, an unconjugated CD20 monoclonal antibody, has proven effective for treating non-Hodgkin's lymphoma and autoimmune disease. CD19 antibody immunotherapy is also effective in mouse models of lymphoma and autoimmunity. In both cases, mouse models have demonstrated that effector cell networks effectively deplete the vast majority of circulating and tissue B lymphocytes through Fcgamma receptor-dependent pathways. In mice, B cell depletion is predominantly, if not exclusively, mediated by monocytes. CD20 mAbs rapidly deplete circulating and tissue B cells in an antibody isotype-restricted manner with a hierarchy of antibody effectiveness: IgG2a/c > IgG1 > IgG2b >> IgG3. Depending on antibody isotype, mouse B cell depletion is regulated by FcgammaRI-, FcgammaRII-, FcgammaRIII-, and FcgammaRIV-dependent pathways. The potency of IgG2a/c mAbs for B cell depletion in vivo results from FcgammaRIV interactions, with likely contributions from high-affinity FcgammaRI. IgG1 mAbs induce B cell depletion through preferential, if not exclusive, interactions with low-affinity FcgammaRIII, while IgG2b mAbs interact preferentially with intermediate-affinity FcgammaRIV. By contrast, inhibitory FcgammaRIIB-deficiency significantly increases CD20 mAb-induced B cell depletion at low mAb doses by enhancing monocyte function. Thus, isotype-specific mAb interactions with distinct FcgammaRs contribute significantly to the effectiveness of CD20 mAbs in vivo. These results provide a molecular basis for earlier observations that human FcgammaRII and FcgammaRIII polymorphisms correlate with the in vivo effectiveness of CD20 antibody therapy. That the innate monocyte network depletes B cells through FcgammaR-dependent pathways during immunotherapy has important clinical implications for CD19, CD20, and other antibody-based therapies for the treatment of diverse B cell malignancies and autoimmune disease.

fgamma受体依赖效应机制调节CD19和CD20抗体免疫治疗B淋巴细胞恶性肿瘤和自身免疫。
使用利妥昔单抗(一种非偶联CD20单克隆抗体)进行免疫治疗已被证明对治疗非霍奇金淋巴瘤和自身免疫性疾病有效。CD19抗体免疫疗法在淋巴瘤和自身免疫小鼠模型中也有效。在这两种情况下,小鼠模型已经证明效应细胞网络通过Fcgamma受体依赖途径有效地消耗绝大多数循环和组织B淋巴细胞。在小鼠中,B细胞耗竭主要是由单核细胞介导的。CD20单克隆抗体以抗体同型限制的方式快速消耗循环和组织B细胞,其抗体有效性等级为:IgG2a/c > IgG1 > IgG2b > IgG3。根据抗体同型,小鼠B细胞耗竭受FcgammaRI-、FcgammaRII-、FcgammaRII-和FcgammaRII-依赖途径的调节。IgG2a/c单克隆抗体对体内B细胞耗损的效力来自于fcgammarv的相互作用,可能与高亲和力的FcgammaRI有关。IgG1单抗通过优先(如果不是排他的话)与低亲和力FcgammaRIII相互作用诱导B细胞衰竭,而IgG2b单抗优先与中等亲和力FcgammaRIV相互作用。相比之下,抑制fcgammarib -缺乏症在低单抗剂量下通过增强单核细胞功能显著增加CD20单抗诱导的B细胞耗竭。因此,同型特异性单克隆抗体与不同的FcgammaRs的相互作用显著地促进了CD20单克隆抗体在体内的有效性。这些结果为早期观察到人类FcgammaRII和FcgammaRII多态性与CD20抗体治疗的体内有效性相关提供了分子基础。先天单核细胞网络在免疫治疗过程中通过fcgammar依赖途径消耗B细胞,这对CD19、CD20和其他基于抗体的治疗多种B细胞恶性肿瘤和自身免疫性疾病的疗法具有重要的临床意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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