Thoracic Diseases Research Unit, Stabile Bldg. 8-56, Division of Pulmonary and Critical Care Medicine, Mayo Clinic and Foundation, 200 First Street SW, Rochester, MN 55905, USA.
J Autoimmun. 2010 Dec;35(4):299-308. doi: 10.1016/j.jaut.2010.06.021.
Proteinase 3 (PR3)-specific antineutrophil cytoplasmic antibodies (ANCA) are highly specific for the autoimmune small vessel vasculitis, Wegener's granulomatosis (WG). PR3-ANCA have proven diagnostic value but their pathogenic potential and utility as a biomarker for disease activity remain unclear. PR3-ANCA recognize conformational epitopes, and epitope-specific PR3-ANCA subsets with variable impact on biological functions of PR3 have been postulated. The aims of this study were to identify specific PR3 surface epitopes recognized by monoclonal antibodies (moAbs) and to determine whether the findings can be used to measure the functional impact of epitope-specific PR3-ANCA and their potential relationship to disease activity. We used a novel flow cytometry assay based on TALON-beads coated with recombinant human (H) and murine (M) PR3 and 10 custom-designed chimeric human/mouse rPR3-variants (Hm1-5/Mh1-5) identifying 5 separate non-conserved PR3 surface epitopes. Anti-PR3 moAbs recognize 4 major surface epitopes, and we identified the specific surface location of 3 of these with the chimeric rPR3-variants. The ability of PR3-ANCA to inhibit the enzymatic activity of PR3 was measured indirectly using a capture-ELISA system based on the different epitopes recognized by capturing moAbs. Epitope-specific PR3-ANCA capture-ELISA results obtained from patient plasma (n=27) correlated with the inhibition of enzymatic activity of PR3 by paired IgG preparations (r=0.7, P<0.01). The capture-ELISA results also seem to reflect disease activity. In conclusion, insights about epitopes recognized by anti-PR3 moAbs can be applied to separate PR3-ANCA subsets with predictable functional qualities. The ability of PR3-ANCA to inhibit the enzymatic activity of PR3, a property linked to disease activity, can now be gauged using a simple epitope-based capture-ELISA system.
蛋白酶 3(PR3)-特异性抗中性粒细胞胞质抗体(ANCA)高度特异性地针对自身免疫性小血管血管炎,韦格纳肉芽肿(WG)。PR3-ANCA 已被证明具有诊断价值,但它们的致病潜力和作为疾病活动的生物标志物的效用仍不清楚。PR3-ANCA 识别构象表位,并且已经提出了具有可变影响 PR3 生物学功能的表位特异性 PR3-ANCA 亚群。本研究的目的是鉴定被单克隆抗体(moAb)识别的特定 PR3 表面表位,并确定这些发现是否可用于测量表位特异性 PR3-ANCA 的功能影响及其与疾病活动的潜在关系。我们使用了一种基于 TALON-beads 的新型流式细胞术检测方法,该方法使用重组人(H)和鼠(M)PR3 以及 10 个定制设计的嵌合人/鼠 rPR3 变体(Hm1-5/Mh1-5)进行包被,鉴定了 5 个独立的非保守 PR3 表面表位。抗 PR3 moAb 识别 4 个主要的表面表位,我们使用嵌合 rPR3 变体确定了其中 3 个的特定表面位置。使用基于不同表位的捕获 moAb 的捕获 ELISA 系统间接测量 PR3-ANCA 抑制 PR3 酶活性的能力。从患者血浆(n=27)获得的针对 PR3-ANCA 的表位特异性捕获 ELISA 结果与配对 IgG 制剂抑制 PR3 酶活性的结果相关(r=0.7,P<0.01)。捕获 ELISA 结果似乎也反映了疾病活动。总之,关于抗 PR3 moAb 识别的表位的见解可以应用于分离具有可预测功能特性的 PR3-ANCA 亚群。现在,可以使用简单的基于表位的捕获 ELISA 系统来衡量 PR3-ANCA 抑制 PR3 酶活性的能力,这一特性与疾病活动有关。